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ReStructuredText
608 lines
25 KiB
ReStructuredText
:tocdepth: 2
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.. _windows-faq:
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=====================
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Python on Windows FAQ
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=====================
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.. contents::
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How do I run a Python program under Windows?
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--------------------------------------------
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This is not necessarily a straightforward question. If you are already familiar
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with running programs from the Windows command line then everything will seem
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obvious; otherwise, you might need a little more guidance. There are also
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differences between Windows 95, 98, NT, ME, 2000 and XP which can add to the
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confusion.
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.. sidebar:: |Python Development on XP|_
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:subtitle: `Python Development on XP`_
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This series of screencasts aims to get you up and running with Python on
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Windows XP. The knowledge is distilled into 1.5 hours and will get you up
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and running with the right Python distribution, coding in your choice of IDE,
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and debugging and writing solid code with unit-tests.
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.. |Python Development on XP| image:: python-video-icon.png
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.. _`Python Development on XP`:
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http://www.showmedo.com/videos/series?name=pythonOzsvaldPyNewbieSeries
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Unless you use some sort of integrated development environment, you will end up
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*typing* Windows commands into what is variously referred to as a "DOS window"
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or "Command prompt window". Usually you can create such a window from your
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Start menu; under Windows 2000 the menu selection is :menuselection:`Start -->
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Programs --> Accessories --> Command Prompt`. You should be able to recognize
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when you have started such a window because you will see a Windows "command
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prompt", which usually looks like this::
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C:\>
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The letter may be different, and there might be other things after it, so you
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might just as easily see something like::
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D:\Steve\Projects\Python>
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depending on how your computer has been set up and what else you have recently
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done with it. Once you have started such a window, you are well on the way to
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running Python programs.
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You need to realize that your Python scripts have to be processed by another
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program called the Python interpreter. The interpreter reads your script,
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compiles it into bytecodes, and then executes the bytecodes to run your
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program. So, how do you arrange for the interpreter to handle your Python?
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First, you need to make sure that your command window recognises the word
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"python" as an instruction to start the interpreter. If you have opened a
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command window, you should try entering the command ``python`` and hitting
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return. You should then see something like::
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Python 2.2 (#28, Dec 21 2001, 12:21:22) [MSC 32 bit (Intel)] on win32
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Type "help", "copyright", "credits" or "license" for more information.
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>>>
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You have started the interpreter in "interactive mode". That means you can enter
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Python statements or expressions interactively and have them executed or
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evaluated while you wait. This is one of Python's strongest features. Check it
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by entering a few expressions of your choice and seeing the results::
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>>> print "Hello"
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Hello
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>>> "Hello" * 3
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HelloHelloHello
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Many people use the interactive mode as a convenient yet highly programmable
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calculator. When you want to end your interactive Python session, hold the Ctrl
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key down while you enter a Z, then hit the "Enter" key to get back to your
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Windows command prompt.
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You may also find that you have a Start-menu entry such as :menuselection:`Start
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--> Programs --> Python 2.2 --> Python (command line)` that results in you
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seeing the ``>>>`` prompt in a new window. If so, the window will disappear
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after you enter the Ctrl-Z character; Windows is running a single "python"
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command in the window, and closes it when you terminate the interpreter.
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If the ``python`` command, instead of displaying the interpreter prompt ``>>>``,
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gives you a message like::
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'python' is not recognized as an internal or external command,
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operable program or batch file.
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.. sidebar:: |Adding Python to DOS Path|_
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:subtitle: `Adding Python to DOS Path`_
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Python is not added to the DOS path by default. This screencast will walk
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you through the steps to add the correct entry to the `System Path`, allowing
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Python to be executed from the command-line by all users.
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.. |Adding Python to DOS Path| image:: python-video-icon.png
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.. _`Adding Python to DOS Path`:
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http://showmedo.com/videos/video?name=960000&fromSeriesID=96
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or::
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Bad command or filename
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then you need to make sure that your computer knows where to find the Python
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interpreter. To do this you will have to modify a setting called PATH, which is
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a list of directories where Windows will look for programs.
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You should arrange for Python's installation directory to be added to the PATH
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of every command window as it starts. If you installed Python fairly recently
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then the command ::
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dir C:\py*
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will probably tell you where it is installed; the usual location is something
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like ``C:\Python23``. Otherwise you will be reduced to a search of your whole
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disk ... use :menuselection:`Tools --> Find` or hit the :guilabel:`Search`
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button and look for "python.exe". Supposing you discover that Python is
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installed in the ``C:\Python23`` directory (the default at the time of writing),
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you should make sure that entering the command ::
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c:\Python23\python
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starts up the interpreter as above (and don't forget you'll need a "CTRL-Z" and
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an "Enter" to get out of it). Once you have verified the directory, you need to
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add it to the start-up routines your computer goes through. For older versions
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of Windows the easiest way to do this is to edit the ``C:\AUTOEXEC.BAT``
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file. You would want to add a line like the following to ``AUTOEXEC.BAT``::
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PATH C:\Python23;%PATH%
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For Windows NT, 2000 and (I assume) XP, you will need to add a string such as ::
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;C:\Python23
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to the current setting for the PATH environment variable, which you will find in
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the properties window of "My Computer" under the "Advanced" tab. Note that if
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you have sufficient privilege you might get a choice of installing the settings
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either for the Current User or for System. The latter is preferred if you want
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everybody to be able to run Python on the machine.
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If you aren't confident doing any of these manipulations yourself, ask for help!
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At this stage you may want to reboot your system to make absolutely sure the new
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setting has taken effect. You probably won't need to reboot for Windows NT, XP
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or 2000. You can also avoid it in earlier versions by editing the file
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``C:\WINDOWS\COMMAND\CMDINIT.BAT`` instead of ``AUTOEXEC.BAT``.
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You should now be able to start a new command window, enter ``python`` at the
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``C:\>`` (or whatever) prompt, and see the ``>>>`` prompt that indicates the
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Python interpreter is reading interactive commands.
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Let's suppose you have a program called ``pytest.py`` in directory
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``C:\Steve\Projects\Python``. A session to run that program might look like
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this::
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C:\> cd \Steve\Projects\Python
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C:\Steve\Projects\Python> python pytest.py
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Because you added a file name to the command to start the interpreter, when it
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starts up it reads the Python script in the named file, compiles it, executes
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it, and terminates, so you see another ``C:\>`` prompt. You might also have
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entered ::
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C:\> python \Steve\Projects\Python\pytest.py
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if you hadn't wanted to change your current directory.
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Under NT, 2000 and XP you may well find that the installation process has also
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arranged that the command ``pytest.py`` (or, if the file isn't in the current
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directory, ``C:\Steve\Projects\Python\pytest.py``) will automatically recognize
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the ".py" extension and run the Python interpreter on the named file. Using this
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feature is fine, but *some* versions of Windows have bugs which mean that this
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form isn't exactly equivalent to using the interpreter explicitly, so be
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careful.
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The important things to remember are:
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1. Start Python from the Start Menu, or make sure the PATH is set correctly so
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Windows can find the Python interpreter. ::
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python
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should give you a '>>>' prompt from the Python interpreter. Don't forget the
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CTRL-Z and ENTER to terminate the interpreter (and, if you started the window
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from the Start Menu, make the window disappear).
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2. Once this works, you run programs with commands::
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python {program-file}
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3. When you know the commands to use you can build Windows shortcuts to run the
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Python interpreter on any of your scripts, naming particular working
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directories, and adding them to your menus. Take a look at ::
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python --help
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if your needs are complex.
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4. Interactive mode (where you see the ``>>>`` prompt) is best used for checking
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that individual statements and expressions do what you think they will, and
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for developing code by experiment.
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How do I make Python scripts executable?
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----------------------------------------
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On Windows 2000, the standard Python installer already associates the .py
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extension with a file type (Python.File) and gives that file type an open
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command that runs the interpreter (``D:\Program Files\Python\python.exe "%1"
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%*``). This is enough to make scripts executable from the command prompt as
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'foo.py'. If you'd rather be able to execute the script by simple typing 'foo'
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with no extension you need to add .py to the PATHEXT environment variable.
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On Windows NT, the steps taken by the installer as described above allow you to
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run a script with 'foo.py', but a longtime bug in the NT command processor
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prevents you from redirecting the input or output of any script executed in this
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way. This is often important.
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The incantation for making a Python script executable under WinNT is to give the
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file an extension of .cmd and add the following as the first line::
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@setlocal enableextensions & python -x %~f0 %* & goto :EOF
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Why does Python sometimes take so long to start?
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------------------------------------------------
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Usually Python starts very quickly on Windows, but occasionally there are bug
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reports that Python suddenly begins to take a long time to start up. This is
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made even more puzzling because Python will work fine on other Windows systems
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which appear to be configured identically.
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The problem may be caused by a misconfiguration of virus checking software on
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the problem machine. Some virus scanners have been known to introduce startup
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overhead of two orders of magnitude when the scanner is configured to monitor
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all reads from the filesystem. Try checking the configuration of virus scanning
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software on your systems to ensure that they are indeed configured identically.
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McAfee, when configured to scan all file system read activity, is a particular
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offender.
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Where is Freeze for Windows?
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----------------------------
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"Freeze" is a program that allows you to ship a Python program as a single
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stand-alone executable file. It is *not* a compiler; your programs don't run
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any faster, but they are more easily distributable, at least to platforms with
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the same OS and CPU. Read the README file of the freeze program for more
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disclaimers.
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You can use freeze on Windows, but you must download the source tree (see
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http://www.python.org/download/source). The freeze program is in the
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``Tools\freeze`` subdirectory of the source tree.
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You need the Microsoft VC++ compiler, and you probably need to build Python.
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The required project files are in the PCbuild directory.
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Is a ``*.pyd`` file the same as a DLL?
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--------------------------------------
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.. XXX update for py3k (PyInit_foo)
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Yes, .pyd files are dll's, but there are a few differences. If you have a DLL
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named ``foo.pyd``, then it must have a function ``initfoo()``. You can then
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write Python "import foo", and Python will search for foo.pyd (as well as
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foo.py, foo.pyc) and if it finds it, will attempt to call ``initfoo()`` to
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initialize it. You do not link your .exe with foo.lib, as that would cause
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Windows to require the DLL to be present.
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Note that the search path for foo.pyd is PYTHONPATH, not the same as the path
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that Windows uses to search for foo.dll. Also, foo.pyd need not be present to
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run your program, whereas if you linked your program with a dll, the dll is
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required. Of course, foo.pyd is required if you want to say ``import foo``. In
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a DLL, linkage is declared in the source code with ``__declspec(dllexport)``.
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In a .pyd, linkage is defined in a list of available functions.
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How can I embed Python into a Windows application?
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--------------------------------------------------
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Embedding the Python interpreter in a Windows app can be summarized as follows:
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1. Do _not_ build Python into your .exe file directly. On Windows, Python must
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be a DLL to handle importing modules that are themselves DLL's. (This is the
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first key undocumented fact.) Instead, link to :file:`python{NN}.dll`; it is
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typically installed in ``C:\Windows\System``. NN is the Python version, a
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number such as "23" for Python 2.3.
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You can link to Python statically or dynamically. Linking statically means
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linking against :file:`python{NN}.lib`, while dynamically linking means
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linking against :file:`python{NN}.dll`. The drawback to dynamic linking is
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that your app won't run if :file:`python{NN}.dll` does not exist on your
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system. (General note: :file:`python{NN}.lib` is the so-called "import lib"
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corresponding to :file:`python.dll`. It merely defines symbols for the
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linker.)
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Linking dynamically greatly simplifies link options; everything happens at
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run time. Your code must load :file:`python{NN}.dll` using the Windows
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``LoadLibraryEx()`` routine. The code must also use access routines and data
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in :file:`python{NN}.dll` (that is, Python's C API's) using pointers obtained
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by the Windows ``GetProcAddress()`` routine. Macros can make using these
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pointers transparent to any C code that calls routines in Python's C API.
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Borland note: convert :file:`python{NN}.lib` to OMF format using Coff2Omf.exe
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first.
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2. If you use SWIG, it is easy to create a Python "extension module" that will
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make the app's data and methods available to Python. SWIG will handle just
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about all the grungy details for you. The result is C code that you link
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*into* your .exe file (!) You do _not_ have to create a DLL file, and this
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also simplifies linking.
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3. SWIG will create an init function (a C function) whose name depends on the
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name of the extension module. For example, if the name of the module is leo,
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the init function will be called initleo(). If you use SWIG shadow classes,
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as you should, the init function will be called initleoc(). This initializes
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a mostly hidden helper class used by the shadow class.
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The reason you can link the C code in step 2 into your .exe file is that
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calling the initialization function is equivalent to importing the module
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into Python! (This is the second key undocumented fact.)
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4. In short, you can use the following code to initialize the Python interpreter
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with your extension module.
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.. code-block:: c
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#include "python.h"
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...
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Py_Initialize(); // Initialize Python.
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initmyAppc(); // Initialize (import) the helper class.
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PyRun_SimpleString("import myApp") ; // Import the shadow class.
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5. There are two problems with Python's C API which will become apparent if you
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use a compiler other than MSVC, the compiler used to build pythonNN.dll.
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Problem 1: The so-called "Very High Level" functions that take FILE *
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arguments will not work in a multi-compiler environment because each
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compiler's notion of a struct FILE will be different. From an implementation
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standpoint these are very _low_ level functions.
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Problem 2: SWIG generates the following code when generating wrappers to void
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functions:
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.. code-block:: c
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Py_INCREF(Py_None);
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_resultobj = Py_None;
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return _resultobj;
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Alas, Py_None is a macro that expands to a reference to a complex data
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structure called _Py_NoneStruct inside pythonNN.dll. Again, this code will
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fail in a mult-compiler environment. Replace such code by:
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.. code-block:: c
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return Py_BuildValue("");
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It may be possible to use SWIG's ``%typemap`` command to make the change
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automatically, though I have not been able to get this to work (I'm a
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complete SWIG newbie).
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6. Using a Python shell script to put up a Python interpreter window from inside
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your Windows app is not a good idea; the resulting window will be independent
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of your app's windowing system. Rather, you (or the wxPythonWindow class)
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should create a "native" interpreter window. It is easy to connect that
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window to the Python interpreter. You can redirect Python's i/o to _any_
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object that supports read and write, so all you need is a Python object
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(defined in your extension module) that contains read() and write() methods.
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How do I use Python for CGI?
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----------------------------
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On the Microsoft IIS server or on the Win95 MS Personal Web Server you set up
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Python in the same way that you would set up any other scripting engine.
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Run regedt32 and go to::
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HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\W3SVC\Parameters\ScriptMap
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and enter the following line (making any specific changes that your system may
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need)::
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.py :REG_SZ: c:\<path to python>\python.exe -u %s %s
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This line will allow you to call your script with a simple reference like:
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``http://yourserver/scripts/yourscript.py`` provided "scripts" is an
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"executable" directory for your server (which it usually is by default). The
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:option:`-u` flag specifies unbuffered and binary mode for stdin - needed when
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working with binary data.
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In addition, it is recommended that using ".py" may not be a good idea for the
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file extensions when used in this context (you might want to reserve ``*.py``
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for support modules and use ``*.cgi`` or ``*.cgp`` for "main program" scripts).
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In order to set up Internet Information Services 5 to use Python for CGI
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processing, please see the following links:
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http://www.e-coli.net/pyiis_server.html (for Win2k Server)
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http://www.e-coli.net/pyiis.html (for Win2k pro)
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Configuring Apache is much simpler. In the Apache configuration file
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``httpd.conf``, add the following line at the end of the file::
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ScriptInterpreterSource Registry
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Then, give your Python CGI-scripts the extension .py and put them in the cgi-bin
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directory.
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How do I keep editors from inserting tabs into my Python source?
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----------------------------------------------------------------
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The FAQ does not recommend using tabs, and the Python style guide, :pep:`8`,
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recommends 4 spaces for distributed Python code; this is also the Emacs
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python-mode default.
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Under any editor, mixing tabs and spaces is a bad idea. MSVC is no different in
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this respect, and is easily configured to use spaces: Take :menuselection:`Tools
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--> Options --> Tabs`, and for file type "Default" set "Tab size" and "Indent
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size" to 4, and select the "Insert spaces" radio button.
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If you suspect mixed tabs and spaces are causing problems in leading whitespace,
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run Python with the :option:`-t` switch or run ``Tools/Scripts/tabnanny.py`` to
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check a directory tree in batch mode.
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How do I check for a keypress without blocking?
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-----------------------------------------------
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Use the msvcrt module. This is a standard Windows-specific extension module.
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It defines a function ``kbhit()`` which checks whether a keyboard hit is
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present, and ``getch()`` which gets one character without echoing it.
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How do I emulate os.kill() in Windows?
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--------------------------------------
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Use win32api::
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def kill(pid):
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"""kill function for Win32"""
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import win32api
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handle = win32api.OpenProcess(1, 0, pid)
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return (0 != win32api.TerminateProcess(handle, 0))
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Why does os.path.isdir() fail on NT shared directories?
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-------------------------------------------------------
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The solution appears to be always append the "\\" on the end of shared
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drives.
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>>> import os
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>>> os.path.isdir( '\\\\rorschach\\public')
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0
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>>> os.path.isdir( '\\\\rorschach\\public\\')
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1
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It helps to think of share points as being like drive letters. Example::
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k: is not a directory
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k:\ is a directory
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k:\media is a directory
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k:\media\ is not a directory
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The same rules apply if you substitute "k:" with "\\conky\foo"::
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\\conky\foo is not a directory
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\\conky\foo\ is a directory
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\\conky\foo\media is a directory
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\\conky\foo\media\ is not a directory
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cgi.py (or other CGI programming) doesn't work sometimes on NT or win95!
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------------------------------------------------------------------------
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Be sure you have the latest python.exe, that you are using python.exe rather
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than a GUI version of Python and that you have configured the server to execute
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::
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"...\python.exe -u ..."
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for the CGI execution. The :option:`-u` (unbuffered) option on NT and Win95
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prevents the interpreter from altering newlines in the standard input and
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output. Without it post/multipart requests will seem to have the wrong length
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and binary (e.g. GIF) responses may get garbled (resulting in broken images, PDF
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files, and other binary downloads failing).
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Why doesn't os.popen() work in PythonWin on NT?
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-----------------------------------------------
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The reason that os.popen() doesn't work from within PythonWin is due to a bug in
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Microsoft's C Runtime Library (CRT). The CRT assumes you have a Win32 console
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attached to the process.
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You should use the win32pipe module's popen() instead which doesn't depend on
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having an attached Win32 console.
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Example::
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import win32pipe
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f = win32pipe.popen('dir /c c:\\')
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print f.readlines()
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f.close()
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Why doesn't os.popen()/win32pipe.popen() work on Win9x?
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-------------------------------------------------------
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There is a bug in Win9x that prevents os.popen/win32pipe.popen* from
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working. The good news is there is a way to work around this problem. The
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Microsoft Knowledge Base article that you need to lookup is: Q150956. You will
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find links to the knowledge base at: http://support.microsoft.com/.
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PyRun_SimpleFile() crashes on Windows but not on Unix; why?
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-----------------------------------------------------------
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This is very sensitive to the compiler vendor, version and (perhaps) even
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options. If the FILE* structure in your embedding program isn't the same as is
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assumed by the Python interpreter it won't work.
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The Python 1.5.* DLLs (``python15.dll``) are all compiled with MS VC++ 5.0 and
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with multithreading-DLL options (``/MD``).
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If you can't change compilers or flags, try using :cfunc:`Py_RunSimpleString`.
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A trick to get it to run an arbitrary file is to construct a call to
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:func:`execfile` with the name of your file as argument.
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Also note that you can not mix-and-match Debug and Release versions. If you
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wish to use the Debug Multithreaded DLL, then your module *must* have an "_d"
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appended to the base name.
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Importing _tkinter fails on Windows 95/98: why?
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------------------------------------------------
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Sometimes, the import of _tkinter fails on Windows 95 or 98, complaining with a
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message like the following::
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ImportError: DLL load failed: One of the library files needed
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to run this application cannot be found.
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It could be that you haven't installed Tcl/Tk, but if you did install Tcl/Tk,
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and the Wish application works correctly, the problem may be that its installer
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didn't manage to edit the autoexec.bat file correctly. It tries to add a
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statement that changes the PATH environment variable to include the Tcl/Tk 'bin'
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subdirectory, but sometimes this edit doesn't quite work. Opening it with
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notepad usually reveals what the problem is.
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(One additional hint, noted by David Szafranski: you can't use long filenames
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here; e.g. use ``C:\PROGRA~1\Tcl\bin`` instead of ``C:\Program Files\Tcl\bin``.)
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How do I extract the downloaded documentation on Windows?
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---------------------------------------------------------
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Sometimes, when you download the documentation package to a Windows machine
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using a web browser, the file extension of the saved file ends up being .EXE.
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This is a mistake; the extension should be .TGZ.
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Simply rename the downloaded file to have the .TGZ extension, and WinZip will be
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able to handle it. (If your copy of WinZip doesn't, get a newer one from
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http://www.winzip.com.)
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Missing cw3215mt.dll (or missing cw3215.dll)
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--------------------------------------------
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Sometimes, when using Tkinter on Windows, you get an error that cw3215mt.dll or
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cw3215.dll is missing.
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Cause: you have an old Tcl/Tk DLL built with cygwin in your path (probably
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``C:\Windows``). You must use the Tcl/Tk DLLs from the standard Tcl/Tk
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installation (Python 1.5.2 comes with one).
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Warning about CTL3D32 version from installer
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--------------------------------------------
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The Python installer issues a warning like this::
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This version uses ``CTL3D32.DLL`` which is not the correct version.
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This version is used for windows NT applications only.
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Tim Peters:
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This is a Microsoft DLL, and a notorious source of problems. The message
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means what it says: you have the wrong version of this DLL for your operating
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system. The Python installation did not cause this -- something else you
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installed previous to this overwrote the DLL that came with your OS (probably
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older shareware of some sort, but there's no way to tell now). If you search
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for "CTL3D32" using any search engine (AltaVista, for example), you'll find
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hundreds and hundreds of web pages complaining about the same problem with
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all sorts of installation programs. They'll point you to ways to get the
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correct version reinstalled on your system (since Python doesn't cause this,
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we can't fix it).
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David A Burton has written a little program to fix this. Go to
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http://www.burtonsys.com/downloads.html and click on "ctl3dfix.zip".
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