I am trying to open the file recentlyUpdated.yaml from my Python script. But when I try using:
open('recentlyUpdated.yaml')
I get an error that says:
IOError: [Errno 2] No such file or directory: 'recentlyUpdated.yaml'
Why? How can I fix the problem?
Ensure the file exists (and has the right file extension): use os.listdir() to see the list of files in the current working directory.
Ensure you're in the expected directory using os.getcwd().
(If you launch your code from an IDE, you may be in a different directory.)
You can then either:
Call os.chdir(dir) where dir is the directory containing the file. Then, open the file using just its name, e.g. open("file.txt").
Specify an absolute path to the file in your open call.
Use a raw string (r"") if your path uses backslashes, like
so: dir = r'C:\Python32'
If you don't use raw string, you have to escape every backslash: 'C:\\User\\Bob\\...'
Forward-slashes also work on Windows 'C:/Python32' and do not need to be escaped.
Let me clarify how Python finds files:
An absolute path is a path that starts with your computer's root directory, for example C:\Python\scripts if you're on Windows.
A relative path is a path that does not start with your computer's root directory, and is instead relative to something called the working directory. You can view Python's current working directory by calling os.getcwd().
If you try to do open('sortedLists.yaml'), Python will see that you are passing it a relative path, so it will search for the file inside the current working directory.
Calling os.chdir() will change the current working directory.
Example: Let's say file.txt is found in C:\Folder.
To open it, you can do:
os.chdir(r'C:\Folder')
open('file.txt') # relative path, looks inside the current working directory
or
open(r'C:\Folder\file.txt') # absolute path
Most likely, the problem is that you're using a relative file path to open the file, but the current working directory isn't set to what you think it is.
It's a common misconception that relative paths are relative to the location of the python script, but this is untrue. Relative file paths are always relative to the current working directory, and the current working directory doesn't have to be the location of your python script.
You have three options:
Use an absolute path to open the file:
file = open(r'C:\path\to\your\file.yaml')
Generate the path to the file relative to your python script:
from pathlib import Path
script_location = Path(__file__).absolute().parent
file_location = script_location / 'file.yaml'
file = file_location.open()
(See also: How do I get the path and name of the file that is currently executing?)
Change the current working directory before opening the file:
import os
os.chdir(r'C:\path\to\your\file')
file = open('file.yaml')
Other common mistakes that could cause a "file not found" error include:
Accidentally using escape sequences in a file path:
path = 'C:\Users\newton\file.yaml'
# Incorrect! The '\n' in 'Users\newton' is a line break character!
To avoid making this mistake, remember to use raw string literals for file paths:
path = r'C:\Users\newton\file.yaml'
# Correct!
(See also: Windows path in Python)
Forgetting that Windows doesn't display file extensions:
Since Windows doesn't display known file extensions, sometimes when you think your file is named file.yaml, it's actually named file.yaml.yaml. Double-check your file's extension.
The file may be existing but may have a different path. Try writing the absolute path for the file.
Try os.listdir() function to check that atleast python sees the file.
Try it like this:
file1 = open(r'Drive:\Dir\recentlyUpdated.yaml')
Possibly, you closed the 'file1'.
Just use 'w' flag, that create new file:
file1 = open('recentlyUpdated.yaml', 'w')
mode is an optional string that specifies the mode in which the file
is opened. It defaults to 'r' which means open for reading in text
mode. Other common values are 'w' for writing (truncating the file if
it already exists)...
(see also https://docs.python.org/3/library/functions.html?highlight=open#open)
If is VSCode see the workspace. If you are in other workspace this error can rise
Understanding absolute and relative paths
The term path means exactly what it sounds like. It shows the steps that need to be taken, into and out of folders, to find a file. Each step on the path is either a folder name, the special name . (which means the current folder), or the special name .. (which means to go back/out into the parent folder).
The terms absolute and relative also have their usual English meaning. A relative path shows where something is relative to some start point; an absolute path is a location starting from the top.
Paths that start with a path separator, or a drive letter followed by a path separator (like C:/foo) on Windows, are absolute. (On Windows there are also UNC paths, which are necessarily absolute. Most people will never have to worry about these.)
Paths that directly start with a file or folder name, or a drive letter followed directly by the file or folder name (like C:foo) on Windows, are relative.
Understanding the "current working directory"
Relative paths are "relative to" the so-called current working directory (hereafter abbreviated CWD). At the command line, Linux and Mac use a common CWD across all drives. (The entire file system has a common "root", and may include multiple physical storage devices.) Windows is a bit different: it remembers the most recent CWD for each drive, and has separate functionality to switch between drives, restoring those old CWD values.
Each process (this includes terminal/command windows) has its own CWD. When a program is started from the command line, it will get the CWD that the terminal/command process was using. When a program is started from a GUI (by double-clicking a script, or dragging something onto the script, or dragging the script onto a Python executable) or by using an IDE, the CWD might be any number of things depending on the details.
Importantly, the CWD is not necessarily where the script is located.
The script's CWD can be checked using os.getcwd, and modified using os.chdir. Each IDE has its own rules that control the initial CWD; check the documentation for details.
To set the CWD to the folder that contains the current script, determine that path and then set it:
os.chdir(os.path.dirname(os.path.abspath(__file__)))
Verifying the actual file name and path
There are many reasons why the path to a file might not match expectations. For example, sometimes people expect C:/foo.txt on Windows to mean "the file named foo.txt on the desktop". This is wrong. That file is actually - normally - at C:/Users/name/Desktop/foo.txt (replacing name with the current user's username). It could instead be elsewhere, if Windows is configured to put it elsewhere. To find the path to the desktop in a portable way, see How to get Desktop location?.
It's also common to mis-count ..s in a relative path, or inappropriately repeat a folder name in a path. Take special care when constructing a path programmatically. Finally, keep in mind that .. will have no effect while already in a root directory (/ on Linux or Mac, or a drive root on Windows).
Take even more special care when constructing a path based on user input. If the input is not sanitized, bad things could happen (e.g. allowing the user to unzip a file into a folder where it will overwrite something important, or where the user ought not be allowed to write files).
Another common gotcha is that the special ~ shortcut for the current user's home directory does not work in an absolute path specified in a Python program. That part of the path must be explicitly converted to the actual path, using os.path.expanduser. See Why am I forced to os.path.expanduser in python? and os.makedirs doesn't understand "~" in my path.
Keep in mind that os.listdir will give only the file names, not paths. Trying to iterate over a directory listed this way will only work if that directory is the current working directory.
It's also important to make sure of the actual file name. Windows has an option to hide file name extensions in the GUI. If you see foo.txt in a window, it could be that the file's actual name is foo.txt.txt, or something else. You can disable this option in your settings. You can also verify the file name using the command line; dir will tell you the truth about what is in the folder. (The Linux/Mac equivalent is ls, of course; but the problem should not arise there in the first place.)
Backslashes in ordinary strings are escape sequences. This causes problems when trying to a backslash as the path separator on Windows. However, using backslashes for this is not necessary, and generally not advisable. See Windows path in Python.
When trying to create a new file using a file mode like w, the path to the new file still needs to exist - i.e., all the intervening folders. See for example Trying to use open(filename, 'w' ) gives IOError: [Errno 2] No such file or directory if directory doesn't exist. Also keep in mind that the new file name has to be valid. In particular, it will not work to try to insert a date in MM/DD/YYYY format into the file name, because the /s will be treated as path separators.
Check the path that has been mentioned, if it's absolute or relative.
If its something like-->/folder/subfolder/file -->Computer will search for folder in root directory.
If its something like--> ./folder/subfolder/file --> Computer will search for folder in current working directory.
If you are using IDE like VScode, make sure you have opened the IDE from the same directory where you have kept the file you want to access.
For example, if you want to access file.txt which is inside the Document, try opening the IDE from Document by right clicking in the directory and clicking "Open with "
Related
I am trying to open the file recentlyUpdated.yaml from my Python script. But when I try using:
open('recentlyUpdated.yaml')
I get an error that says:
IOError: [Errno 2] No such file or directory: 'recentlyUpdated.yaml'
Why? How can I fix the problem?
Ensure the file exists (and has the right file extension): use os.listdir() to see the list of files in the current working directory.
Ensure you're in the expected directory using os.getcwd().
(If you launch your code from an IDE, you may be in a different directory.)
You can then either:
Call os.chdir(dir) where dir is the directory containing the file. Then, open the file using just its name, e.g. open("file.txt").
Specify an absolute path to the file in your open call.
Use a raw string (r"") if your path uses backslashes, like
so: dir = r'C:\Python32'
If you don't use raw string, you have to escape every backslash: 'C:\\User\\Bob\\...'
Forward-slashes also work on Windows 'C:/Python32' and do not need to be escaped.
Let me clarify how Python finds files:
An absolute path is a path that starts with your computer's root directory, for example C:\Python\scripts if you're on Windows.
A relative path is a path that does not start with your computer's root directory, and is instead relative to something called the working directory. You can view Python's current working directory by calling os.getcwd().
If you try to do open('sortedLists.yaml'), Python will see that you are passing it a relative path, so it will search for the file inside the current working directory.
Calling os.chdir() will change the current working directory.
Example: Let's say file.txt is found in C:\Folder.
To open it, you can do:
os.chdir(r'C:\Folder')
open('file.txt') # relative path, looks inside the current working directory
or
open(r'C:\Folder\file.txt') # absolute path
Most likely, the problem is that you're using a relative file path to open the file, but the current working directory isn't set to what you think it is.
It's a common misconception that relative paths are relative to the location of the python script, but this is untrue. Relative file paths are always relative to the current working directory, and the current working directory doesn't have to be the location of your python script.
You have three options:
Use an absolute path to open the file:
file = open(r'C:\path\to\your\file.yaml')
Generate the path to the file relative to your python script:
from pathlib import Path
script_location = Path(__file__).absolute().parent
file_location = script_location / 'file.yaml'
file = file_location.open()
(See also: How do I get the path and name of the file that is currently executing?)
Change the current working directory before opening the file:
import os
os.chdir(r'C:\path\to\your\file')
file = open('file.yaml')
Other common mistakes that could cause a "file not found" error include:
Accidentally using escape sequences in a file path:
path = 'C:\Users\newton\file.yaml'
# Incorrect! The '\n' in 'Users\newton' is a line break character!
To avoid making this mistake, remember to use raw string literals for file paths:
path = r'C:\Users\newton\file.yaml'
# Correct!
(See also: Windows path in Python)
Forgetting that Windows doesn't display file extensions:
Since Windows doesn't display known file extensions, sometimes when you think your file is named file.yaml, it's actually named file.yaml.yaml. Double-check your file's extension.
The file may be existing but may have a different path. Try writing the absolute path for the file.
Try os.listdir() function to check that atleast python sees the file.
Try it like this:
file1 = open(r'Drive:\Dir\recentlyUpdated.yaml')
Possibly, you closed the 'file1'.
Just use 'w' flag, that create new file:
file1 = open('recentlyUpdated.yaml', 'w')
mode is an optional string that specifies the mode in which the file
is opened. It defaults to 'r' which means open for reading in text
mode. Other common values are 'w' for writing (truncating the file if
it already exists)...
(see also https://docs.python.org/3/library/functions.html?highlight=open#open)
If is VSCode see the workspace. If you are in other workspace this error can rise
Understanding absolute and relative paths
The term path means exactly what it sounds like. It shows the steps that need to be taken, into and out of folders, to find a file. Each step on the path is either a folder name, the special name . (which means the current folder), or the special name .. (which means to go back/out into the parent folder).
The terms absolute and relative also have their usual English meaning. A relative path shows where something is relative to some start point; an absolute path is a location starting from the top.
Paths that start with a path separator, or a drive letter followed by a path separator (like C:/foo) on Windows, are absolute. (On Windows there are also UNC paths, which are necessarily absolute. Most people will never have to worry about these.)
Paths that directly start with a file or folder name, or a drive letter followed directly by the file or folder name (like C:foo) on Windows, are relative.
Understanding the "current working directory"
Relative paths are "relative to" the so-called current working directory (hereafter abbreviated CWD). At the command line, Linux and Mac use a common CWD across all drives. (The entire file system has a common "root", and may include multiple physical storage devices.) Windows is a bit different: it remembers the most recent CWD for each drive, and has separate functionality to switch between drives, restoring those old CWD values.
Each process (this includes terminal/command windows) has its own CWD. When a program is started from the command line, it will get the CWD that the terminal/command process was using. When a program is started from a GUI (by double-clicking a script, or dragging something onto the script, or dragging the script onto a Python executable) or by using an IDE, the CWD might be any number of things depending on the details.
Importantly, the CWD is not necessarily where the script is located.
The script's CWD can be checked using os.getcwd, and modified using os.chdir. Each IDE has its own rules that control the initial CWD; check the documentation for details.
To set the CWD to the folder that contains the current script, determine that path and then set it:
os.chdir(os.path.dirname(os.path.abspath(__file__)))
Verifying the actual file name and path
There are many reasons why the path to a file might not match expectations. For example, sometimes people expect C:/foo.txt on Windows to mean "the file named foo.txt on the desktop". This is wrong. That file is actually - normally - at C:/Users/name/Desktop/foo.txt (replacing name with the current user's username). It could instead be elsewhere, if Windows is configured to put it elsewhere. To find the path to the desktop in a portable way, see How to get Desktop location?.
It's also common to mis-count ..s in a relative path, or inappropriately repeat a folder name in a path. Take special care when constructing a path programmatically. Finally, keep in mind that .. will have no effect while already in a root directory (/ on Linux or Mac, or a drive root on Windows).
Take even more special care when constructing a path based on user input. If the input is not sanitized, bad things could happen (e.g. allowing the user to unzip a file into a folder where it will overwrite something important, or where the user ought not be allowed to write files).
Another common gotcha is that the special ~ shortcut for the current user's home directory does not work in an absolute path specified in a Python program. That part of the path must be explicitly converted to the actual path, using os.path.expanduser. See Why am I forced to os.path.expanduser in python? and os.makedirs doesn't understand "~" in my path.
Keep in mind that os.listdir will give only the file names, not paths. Trying to iterate over a directory listed this way will only work if that directory is the current working directory.
It's also important to make sure of the actual file name. Windows has an option to hide file name extensions in the GUI. If you see foo.txt in a window, it could be that the file's actual name is foo.txt.txt, or something else. You can disable this option in your settings. You can also verify the file name using the command line; dir will tell you the truth about what is in the folder. (The Linux/Mac equivalent is ls, of course; but the problem should not arise there in the first place.)
Backslashes in ordinary strings are escape sequences. This causes problems when trying to a backslash as the path separator on Windows. However, using backslashes for this is not necessary, and generally not advisable. See Windows path in Python.
When trying to create a new file using a file mode like w, the path to the new file still needs to exist - i.e., all the intervening folders. See for example Trying to use open(filename, 'w' ) gives IOError: [Errno 2] No such file or directory if directory doesn't exist. Also keep in mind that the new file name has to be valid. In particular, it will not work to try to insert a date in MM/DD/YYYY format into the file name, because the /s will be treated as path separators.
Check the path that has been mentioned, if it's absolute or relative.
If its something like-->/folder/subfolder/file -->Computer will search for folder in root directory.
If its something like--> ./folder/subfolder/file --> Computer will search for folder in current working directory.
If you are using IDE like VScode, make sure you have opened the IDE from the same directory where you have kept the file you want to access.
For example, if you want to access file.txt which is inside the Document, try opening the IDE from Document by right clicking in the directory and clicking "Open with "
Is there a way to use the Open() function with an absolute path? I would like to open any file wherever it is on the disk, but Open() sets it's working directory to the location of the file by default, can I change this?
If you are on linux you would need to add a / to the beginning of the path, for example to access /tmp/someFile.txt you would do open("/tmp/someFile.Txt"). This works because / references the root.
On windows (this has not been tested) i before you would do open("C:/someFile.txt").
The docs for the open function can be found at: https://docs.python.org/3/library/functions.html#open
In a previous project, I used the first version of the following two lines. Now that I found getcwd() I thought this would be the shorter alternative.
print(os.path.dirname(__file__)) # D:/Personal_Software/my_project
print(os.getcwd()) # D:\Personal_Software\my_project
I already read this post, but the thing I'm curious about is the use of "/" vs. "\". I'm using Windows 10 if that's relevant.
__file__ is filename provided to Python, exactly as it was provided.
os.path.dirname(__file__) is usually the directory in which a script is located. (But not always, as you'll see below.)
os.path.dirname(os.path.realpath(__file__)) is the directory in which the script is located.
os.getcwd() is the current directory.
The current directory has nothing to do with where the script is located. It's a per-process path used to resolve relative paths.
/tmp/ikegami/a.py:
#!/usr/bin/python3
import os
print(__file__)
print(os.path.dirname(__file__))
print(os.path.dirname(os.path.realpath(__file__)))
print(os.getcwd())
[~]$ bin/a # A symlink to /tmp/ikegami/a.py
bin/a # The path provided to python3.
bin # NOT the directory in which the script is located.
/tmp/ikegami # The directory in which the script is located.
/home/ikegami # The current directory (~ = /home/ikegami)
[~]$ /tmp/ikegami/a.py
/tmp/ikegami/a.py # The path provided to python3.
/tmp/ikegami # The parent of the path provided to python3.
/tmp/ikegami # The directory in which the script is located.
/home/ikegami # The current directory (~ = /home/ikegami)
[~]$ cd /tmp/ikegami
[/tmp/ikegami]$ ./a.py
./a.py # The path provided to python3.
. # The parent of the path provided to python3.
/tmp/ikegami # The directory in which the script is located.
/tmp/ikegami # The current directory
(Those test were run on a Linux machine because I don't have python installed on this Windows machine. You'll get similar results on Windows.)
the thing I'm curious about is the use of "/" vs. "\".
Windows has always accepted both \ and / as the directory separator.[1][2], and so did DOS before that.[3] These are equivalent. \ is the canonical separator (the one that's preferred for consistency), but / works just as well.
It appears that your program was launched using python3 D:/Personal_Software/my_project/file.py. __file__ contains the exact path provided to Python, and dirname(__file__) simply removes the last bit.
os.getcwd(), on the other hand, receives the current directory from the OS, and the OS probably returns the canonical form of the current directory.
You can even use // for UNC paths (//server/share) and similar (//?/..., //./..., etc).
Contrary to claims that have been made, this is the case for system calls (i.e. the Win32 API), this is the case in Explorer ("My Computer", "File Explorer", "Save As" dialogs, etc), this is the case for the Power Shell (e.g. dir "c:/bin", c:/bin/myprog), and this is case in the Windows console (e.g. c:/bin/myprog).
Caveat: Some specific Windows console commands (e.g. dir) requires paths with / to be in quotes (e.g. dir "c:/") because / signals the start of an option to them.
Well, since directories were introduced in DOS 2.0.
There is a difference, though you wouldn't be able to tell from a single script.
__file__ is the full filename of a loaded module or script, so getting the parent directory of it with os.path.dirname(__file__) gets you the directory that script is in.
Note: on Linux (and similar OSes), such a filename can be a symbolic link to the actual file which may reside somewhere else. You can use os.path.realpath() to resolve through any such links, if needed, although you can typically use the symlink equivalently. On Windows these are less common, but similarly, you can resolve symbolic links through realpath().
os.getcwd() gets you the current working directory. If you start a script from the directory the script is in (which is common), the working directory will be the same as the result from the call from os.path.dirname(__file__).
But if you start the script from another directory (i.e. python d:\some\path\script.py), or if you change the working directory during the script (e.g. with os.chdir()), the current working directory has changed, but the directory part of the script filename has not.
So, it depends on what you need:
Need the directory your script file is in? Use os.path.dirname(__file__)
Need the directory your script is currently running in? use os.getcwd()
You'll see / in some results and \ in others. Sadly, MS Windows uses \ to separate parts of a path (e.g. C:\Program Files\App\), while pretty much all other operating systems use / (e.g. /home/user/script.py)
Python will often convert those automatically, so you can use paths like C:/Program Files/App in Python on Windows as well, but it tends to be a good idea to be safe and use os.path.sep.
Note: if you're on Python 3, you may be better off just using pathlib's Path instead of os.path. It automatically resolves symbolic links (although you can still resolve to the link if you prefer) and has other nice conveniences as well.
This may be more of a general Windows question than a Python question, I'm not sure.
I have a folder full of python files called GDAL (a geospatial library). The location of the GDAL library is stored in the windows system PATH, so when I type this in a windows command window to check PATH is configured correctly:
gdal_retile.py
I get notepad opening to show the code, as I would expect, as this is the default application for .py files on this pc.
If however I do this:
python gdal_retile.py
It doesn't work, it says
no such file or directory
Yet if I define the full path:
python "C:\Program Files\GDAL\gdal_retile.py"
It works fine. Can't PATH be used as part of an argument to the Python interpreter?
TL:DR; No.
PATH is used to search for the (executable) file you're trying to run. If a file is not executable (e.g., text files), windows will try to look up which program is registered to handle the file's extension (in your case notepad) an open that one, passing the file's path as argument to it.
Once the correct program has been found, all the following arguments are first checked for eventual %ENVIRONMENT_VARIABLE% placeholders to replace with the actual values, then treated as a list of space-separated strings and passed to the program starting. It's the program's task, then, to figure out what to do with them. PATH has no play in the arguments resolution.
Why is it so?
Arguments to a program can be anything. Imagine you're passing the filename of a file you want to create in the current folder. How can the OS know that the filename you're passing in is not actually an existing file to be searched for in PATH, but a file that will be created by the program? That's why the responsibility to handle arguments is entirely on the program that is being started.
Python doesn't consider system path in its arguments, not even PYTHONPATH...
You can simulate this using where to find the script in the path
where gdal_retile.py > %TEMP%\fullp
then use that to set a variable
set /P C=<%TEMP%\fullpath
then call python with the full path
python "%C%"
(there's no error checking here on the where command, which could return nothing or more than 1 path, so that solution is perfectible but convenient to launch another interpreter than the one associated with the .py extension on Windows)
I am trying to open the file recentlyUpdated.yaml from my Python script. But when I try using:
open('recentlyUpdated.yaml')
I get an error that says:
IOError: [Errno 2] No such file or directory: 'recentlyUpdated.yaml'
Why? How can I fix the problem?
Ensure the file exists (and has the right file extension): use os.listdir() to see the list of files in the current working directory.
Ensure you're in the expected directory using os.getcwd().
(If you launch your code from an IDE, you may be in a different directory.)
You can then either:
Call os.chdir(dir) where dir is the directory containing the file. Then, open the file using just its name, e.g. open("file.txt").
Specify an absolute path to the file in your open call.
Use a raw string (r"") if your path uses backslashes, like
so: dir = r'C:\Python32'
If you don't use raw string, you have to escape every backslash: 'C:\\User\\Bob\\...'
Forward-slashes also work on Windows 'C:/Python32' and do not need to be escaped.
Let me clarify how Python finds files:
An absolute path is a path that starts with your computer's root directory, for example C:\Python\scripts if you're on Windows.
A relative path is a path that does not start with your computer's root directory, and is instead relative to something called the working directory. You can view Python's current working directory by calling os.getcwd().
If you try to do open('sortedLists.yaml'), Python will see that you are passing it a relative path, so it will search for the file inside the current working directory.
Calling os.chdir() will change the current working directory.
Example: Let's say file.txt is found in C:\Folder.
To open it, you can do:
os.chdir(r'C:\Folder')
open('file.txt') # relative path, looks inside the current working directory
or
open(r'C:\Folder\file.txt') # absolute path
Most likely, the problem is that you're using a relative file path to open the file, but the current working directory isn't set to what you think it is.
It's a common misconception that relative paths are relative to the location of the python script, but this is untrue. Relative file paths are always relative to the current working directory, and the current working directory doesn't have to be the location of your python script.
You have three options:
Use an absolute path to open the file:
file = open(r'C:\path\to\your\file.yaml')
Generate the path to the file relative to your python script:
from pathlib import Path
script_location = Path(__file__).absolute().parent
file_location = script_location / 'file.yaml'
file = file_location.open()
(See also: How do I get the path and name of the file that is currently executing?)
Change the current working directory before opening the file:
import os
os.chdir(r'C:\path\to\your\file')
file = open('file.yaml')
Other common mistakes that could cause a "file not found" error include:
Accidentally using escape sequences in a file path:
path = 'C:\Users\newton\file.yaml'
# Incorrect! The '\n' in 'Users\newton' is a line break character!
To avoid making this mistake, remember to use raw string literals for file paths:
path = r'C:\Users\newton\file.yaml'
# Correct!
(See also: Windows path in Python)
Forgetting that Windows doesn't display file extensions:
Since Windows doesn't display known file extensions, sometimes when you think your file is named file.yaml, it's actually named file.yaml.yaml. Double-check your file's extension.
The file may be existing but may have a different path. Try writing the absolute path for the file.
Try os.listdir() function to check that atleast python sees the file.
Try it like this:
file1 = open(r'Drive:\Dir\recentlyUpdated.yaml')
Possibly, you closed the 'file1'.
Just use 'w' flag, that create new file:
file1 = open('recentlyUpdated.yaml', 'w')
mode is an optional string that specifies the mode in which the file
is opened. It defaults to 'r' which means open for reading in text
mode. Other common values are 'w' for writing (truncating the file if
it already exists)...
(see also https://docs.python.org/3/library/functions.html?highlight=open#open)
If is VSCode see the workspace. If you are in other workspace this error can rise
Understanding absolute and relative paths
The term path means exactly what it sounds like. It shows the steps that need to be taken, into and out of folders, to find a file. Each step on the path is either a folder name, the special name . (which means the current folder), or the special name .. (which means to go back/out into the parent folder).
The terms absolute and relative also have their usual English meaning. A relative path shows where something is relative to some start point; an absolute path is a location starting from the top.
Paths that start with a path separator, or a drive letter followed by a path separator (like C:/foo) on Windows, are absolute. (On Windows there are also UNC paths, which are necessarily absolute. Most people will never have to worry about these.)
Paths that directly start with a file or folder name, or a drive letter followed directly by the file or folder name (like C:foo) on Windows, are relative.
Understanding the "current working directory"
Relative paths are "relative to" the so-called current working directory (hereafter abbreviated CWD). At the command line, Linux and Mac use a common CWD across all drives. (The entire file system has a common "root", and may include multiple physical storage devices.) Windows is a bit different: it remembers the most recent CWD for each drive, and has separate functionality to switch between drives, restoring those old CWD values.
Each process (this includes terminal/command windows) has its own CWD. When a program is started from the command line, it will get the CWD that the terminal/command process was using. When a program is started from a GUI (by double-clicking a script, or dragging something onto the script, or dragging the script onto a Python executable) or by using an IDE, the CWD might be any number of things depending on the details.
Importantly, the CWD is not necessarily where the script is located.
The script's CWD can be checked using os.getcwd, and modified using os.chdir. Each IDE has its own rules that control the initial CWD; check the documentation for details.
To set the CWD to the folder that contains the current script, determine that path and then set it:
os.chdir(os.path.dirname(os.path.abspath(__file__)))
Verifying the actual file name and path
There are many reasons why the path to a file might not match expectations. For example, sometimes people expect C:/foo.txt on Windows to mean "the file named foo.txt on the desktop". This is wrong. That file is actually - normally - at C:/Users/name/Desktop/foo.txt (replacing name with the current user's username). It could instead be elsewhere, if Windows is configured to put it elsewhere. To find the path to the desktop in a portable way, see How to get Desktop location?.
It's also common to mis-count ..s in a relative path, or inappropriately repeat a folder name in a path. Take special care when constructing a path programmatically. Finally, keep in mind that .. will have no effect while already in a root directory (/ on Linux or Mac, or a drive root on Windows).
Take even more special care when constructing a path based on user input. If the input is not sanitized, bad things could happen (e.g. allowing the user to unzip a file into a folder where it will overwrite something important, or where the user ought not be allowed to write files).
Another common gotcha is that the special ~ shortcut for the current user's home directory does not work in an absolute path specified in a Python program. That part of the path must be explicitly converted to the actual path, using os.path.expanduser. See Why am I forced to os.path.expanduser in python? and os.makedirs doesn't understand "~" in my path.
Keep in mind that os.listdir will give only the file names, not paths. Trying to iterate over a directory listed this way will only work if that directory is the current working directory.
It's also important to make sure of the actual file name. Windows has an option to hide file name extensions in the GUI. If you see foo.txt in a window, it could be that the file's actual name is foo.txt.txt, or something else. You can disable this option in your settings. You can also verify the file name using the command line; dir will tell you the truth about what is in the folder. (The Linux/Mac equivalent is ls, of course; but the problem should not arise there in the first place.)
Backslashes in ordinary strings are escape sequences. This causes problems when trying to a backslash as the path separator on Windows. However, using backslashes for this is not necessary, and generally not advisable. See Windows path in Python.
When trying to create a new file using a file mode like w, the path to the new file still needs to exist - i.e., all the intervening folders. See for example Trying to use open(filename, 'w' ) gives IOError: [Errno 2] No such file or directory if directory doesn't exist. Also keep in mind that the new file name has to be valid. In particular, it will not work to try to insert a date in MM/DD/YYYY format into the file name, because the /s will be treated as path separators.
Check the path that has been mentioned, if it's absolute or relative.
If its something like-->/folder/subfolder/file -->Computer will search for folder in root directory.
If its something like--> ./folder/subfolder/file --> Computer will search for folder in current working directory.
If you are using IDE like VScode, make sure you have opened the IDE from the same directory where you have kept the file you want to access.
For example, if you want to access file.txt which is inside the Document, try opening the IDE from Document by right clicking in the directory and clicking "Open with "