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author | Greg Ward <gward@python.net> | 2000-03-10 01:57:51 (GMT) |
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committer | Greg Ward <gward@python.net> | 2000-03-10 01:57:51 (GMT) |
commit | 169f91b8085ea6dccaa0d25b7c39bf66f9b86d14 (patch) | |
tree | 2cf196f828b9ec45c56e5e237a12c4e7b672b3af /Doc | |
parent | 7c1e5f65e32f22734b88e1b2461d8e1e3fb2d292 (diff) | |
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[from 2000-02-25] Second attempt at describing an installation scheme; this is
the simplified scheme that Guido proposed. Also already-obsolete,
and saved only for posterity.
Diffstat (limited to 'Doc')
-rw-r--r-- | Doc/inst/inst.tex | 506 |
1 files changed, 141 insertions, 365 deletions
diff --git a/Doc/inst/inst.tex b/Doc/inst/inst.tex index e7442df..bfc1bcf 100644 --- a/Doc/inst/inst.tex +++ b/Doc/inst/inst.tex @@ -27,8 +27,9 @@ % Should these be added to the standard Python doc tools? (They'll be % needed for my "Distributing Python Modules" guide, too.) \newcommand{\command}[1]{\code{#1}} -\newcommand{\option}[1]{\code{#1}} +\newcommand{\option}[1]{\textsf{\small{#1}}} \newcommand{\filevar}[1]{{\textsl{\filenq{#1}}}} +\newcommand{\homefile}[1]{\file{\tilde/#1}} \newcommand{\comingsoon}{\emph{Coming soon$\ \ldots$}} % And how about these? Very handy for writing pathnames (tilde for @@ -120,402 +121,177 @@ In any event, you can easily install to non-standard locations with a couple of options to the \command{install} command: \begin{tableii}{ll}{option}{Option}{Description} - \lineii{prefix}{base dir for pure Python distributions - (overrides \code{sys.prefix})} - \lineii{exec-prefix}{base dir for distributions with extensions - (overrides \code{sys.exec_prefix})} - \lineii{install-lib}{install dir for top-level modules from pure - Python distributions} - \lineii{install-platlib}{install dir for top-level modules from - distributions with extensions} - \lineii{install-path}{extra path under \option{install-lib} or - \option{install-platlib} to install to} + \lineii {install-lib} + {install directory for modules from pure Python distributions} + \lineii {install-platlib} + {install directory for modules from distributions with extensions} + \lineii {prefix} + {override \code{sys.prefix}: + point to an alternate Python installation} + \lineii {exec-prefix} + {override \code{sys.exec_prefix}: + point to an alternate Python installation} + \lineii {install-path} + {extra sub-path to append to \option{install-lib} (for + non-package-ized distributions)} \end{tableii} +Of these, the most commonly used will probably be \option{install-lib} +and \option{install-platlib}: you use them to point module installation +right at a particular directory. (You'll only need +\option{install-platlib} if you maintain a multi-platform installation, +which is often done on \UNIX{} networks with different architectures and +operating systems.) The two prefix options are intended for the +somewhat arcane purpose of installing modules into a different Python +installation than the Python binary used to perform the installation. +The last, \option{install-path}, is mainly used for module developers to +ensure that their module will go into a directory of their own, but it +may occasionally be useful to you as a module installer. -\subsection{Prefix options} -\label{sec:prefix-options} - -There are a lot of picky little rules that govern the interactions of -these five options. As usual, it's easier to explain things with -examples, so we'll save all the picky rules for later, after you've seen -a bunch of examples. However, we really have to establish some ground -rules before we can dive into the examples: -\begin{itemize} -\item in a normal \UNIX{} installation, \code{sys.prefix} and - \code{sys.exec\_prefix} are both \file{/usr/local}. -\item in a multi-platform \UNIX{} installation, \code{sys.prefix} and - \code{sys.exec\_prefix} are different, and are selected when you - configure and build Python itself. Our canonical example of a - multi-platform installation will have a \code{sys.prefix} of - \file{/usr/local} and a \code{sys.exec\_prefix} of - \file{/usr/local.\filevar{plat}} (for whatever value of \filevar{plat} - is appropriate). -\item the canonical place to install third-party modules is - either \file{\filevar{prefix}/lib/python1.\filevar{X}/site-packages} - or \file{\filevar{exec\_prefix}/lib/python1.\filevar{X}/site-packages}. - These will be referred to as ``the site-packages directories.'' -\end{itemize} - - -\subsubsection{Pure Python module distribution} - -To demonstrate, consider a hypothetical module distribution that -contains one top-level module and a package with two modules: -\begin{tableii}{ll}{module}{Module}{Filename} - \lineii{mymod}{\filenq{mymod.py}} - \lineii{mypkg.mod1}{\filenq{mypkg/mod1.py}} - \lineii{mypkg.mod2}{\filenq{mypkg/mod2.py}} -\end{tableii} -where the filenames are relative to \file{build/lib} after building, or -to some directory in \code{sys.path} after installation. - -The goal of installation is to copy these files into a directory in -\code{sys.path} without interfering with the standard Python library. -The canonical, preferred, and most obvious thing to do is to put them in -the ``site-packages'' directory, which is exactly what the -\command{install} comand does by default: under a normal \UNIX{} Python -installation, -\begin{verbatim} - python setup.py install -\end{verbatim} -installs \file{/usr/local/lib/python1.\filevar{X}/lib/site-packages/mymod.py}, -with the \module{mypkg} package in a \file{mypkg} directory under -\file{site-packages}. -However, if you were interested in a standard installation, you wouldn't -be reading this section. The next-most-standard thing to do is to -specify a custom prefix to override \code{sys.prefix}. For example: +\subsection{Directly specifying installation directories} +\label{sec:install-dirs} + +The most common type of custom module installation is where you maintain +a personal stash of Python modules under your home directory, say in +\homefile{lib/python}. If you only care about a single platform +there, then you only need to specify the \option{install-lib} option and +can forget about \option{install-platlib}: \begin{verbatim} - python setup.py install --prefix=/home/greg +python setup.py install --install-lib=~/lib/python \end{verbatim} -is a sensible way to install Python modules to your home directory: this -results in the installation of \file{/home/greg/lib/python/mymod.py}, -with the \module{mypkg} modules in \file{/home/greg/lib/python/mypkg/}. -An important point here is that in both this example and the ``plain -vanilla'' example above, the actual installation directory is derived -from the \option{prefix} option. However, when \option{prefix} differs -from \code{sys.prefix}, the installation directory is derived -differently: the Python version and \file{site-packages} are omitted. -(The version number is part of the standard library directory name to -describe the version of the standard library, so it doesn't make sense -to include it in the name of a non-standard-library directory; likewise, -\file{site-packages} is meant to denote non-standard modules living in -the same area as the standard library, so it doesn't make sense to -include it when installing to a non-standard library. [XXX check with -Guido that this reasoning is valid and correct; Fred disagrees!]) - - -\subsubsection{Module distribution with extensions} - -Now let's consider a different hypothetical module distribution, which -consists of a single package, \module{foo}, containing one pure Python -module and one extension module: -\begin{tableii}{ll}{module}{Module}{Filename} - \lineii{foo.pure}{\filenq{foo/pure.py}} - \lineii{foo.ext}{\filenq{foo/ext.so} (or \file{foo/extmodule.so})} -\end{tableii} -In this case, the two modules will be in different locations in the -build tree: \file{build/lib/foo/pure.py} and -\file{build/platlib/foo/ext.so}. (The \file{.so} (``shared object'') -extension isn't universal, but it's the norm on \UNIX-like systems; -under Windows, the extension module will be in \file{foo/ext.pyd} or -\file{foo/extmodule.pyd}.) - -Consider again a standard, plain-vanilla installation: +You can, of course, supply whatever directory you like in place of +\homefile{lib/python}. More importantly, you can specify this +directory permanently in your personal configuration file (XXX +filename?): \begin{verbatim} - python setup.py install +[install] +install-lib=~/lib/python \end{verbatim} -In this case, \emph{both} modules will be installed to the site-packages -directory under \code{sys.exec\_prefix}, e.g. to -\file{/usr/local.\filevar{plat}/lib/python1.\filevar{X}/site-packages} -on a \UNIX{} system where Python was configured with -\samp{--exec-prefix=/usr/local.plat}. (On Windows, again, there is no -site-packages directory and \code{sys.prefix} and -\code{sys.exec\_prefix} are the same---so both modules will just be -installed to \code{sys.prefix}.) - -Of course, we've already established that you're not interested in -standard installations. If you just want to install these modules to -your home directory, and you don't maintain a multi-platform home -directory, no problem---just set the prefix as before: +Note that use of shell-style tilde and environment variable expansion is +supported both on the command line and in configuration files. (See +section~\ref{sec:config-files} for more information on configuration +files.) + +Of course, in order for this personal Python library scheme to work, you +have to ensure that \homefile{lib/python} is in \code{sys.path} when you +run Python. The easiest way to do this under \UNIX{} is to add it to +your \code{PYTHONPATH} environment variable when you login. For +example, if you use a Bourne shell derivative such as bash, zsh, or ksh, +add the following to your \homefile{.profile} (or \homefile{.bashrc}, or +\homefile{.zshenv}, depending on your shell and personal preferences): \begin{verbatim} -python setup.py install --prefix=/home/greg +export PYTHONPATH=$HOME/lib/python \end{verbatim} -and both modules will be installed to \file{/home/greg/lib/python}. - -Now let's say your Python installation is in \file{/usr}---as is the -case in many Linux distributions---but your local policy is to install -third-party software to a network-wide \file{/usr/local} and -\file{/usr/local.\filevar{plat}}. That is, \code{sys.prefix} and -\code{sys.exec\_prefix} are both \file{/usr}, and you want Python -modules to be installed to either \file{/usr/local/lib/python} or -\file{/usr/local.\filevar{plat}/lib/python}. This is one case where you -want to specify both \option{prefix} and \option{exec-prefix}: +If you use a csh-derivative such as tcsh, add the following to your +\homefile{.cshrc}: \begin{verbatim} -python setup.py install --prefix=/usr/local \ - --exec-prefix=/usr/local.plat +setenv PYTHONPATH $HOME/lib/python \end{verbatim} -An oddity of this situation is that for any given module distribution, -you only have to supply \emph{one} of \option{prefix} and -\option{exec-prefix}, because pure Python distributions are always -installed under \option{prefix}, and extension-containing distributions -are always installed under \option{exec-prefix}. For consistency's -sake, though, it's best always to supply both---and the best way to do -that is by using a system-wide configuration file (see -Section~\ref{sec:config-files}). - -You could use a similar scheme to maintain a multi-platform personal -Python library. For example, if you install lots of stuff to your home -directory (not just Python modules), you might have a complete -\file{\tilde/usr} with \file{include}, \file{man}, \file{lib}, and so -forth. (The advantage of this scheme is that it keeps those mock system -directories out of your home directory and makes it easier to support a -multi-platform personal \file{usr} tree.) If you don't care about a -multi-platform installation, you can just install with + +If you use multiple platforms (architectures and/or operating systems) +from the same home directory, then you probably want to maintain a +multi-platform personal Python library. One possible scheme is to put +platform-neutral (pure Python) distributions in \homefile{lib/python} +and platform-specific distributions (any that containe extension +modules) in \homefile{lib/python.\filevar{plat}}: \begin{verbatim} -python setup.py install --prefix=$HOME/usr +python setup.py install --install-lib=~/lib/python \ + --install-lib-plat=~/lib/python.plat \ \end{verbatim} -But if you want to keep separate \file{usr} trees for each architecture -that you use, you could say +On the command line, of course, you can just type in the current +platform in place of \filevar{plat}: \file{linux-x86}, +\file{solaris-sparc}, \file{linux-alpha}, whatever. That's not an +option in a configuration file, though---the same file has to cover all +platforms for which you maintain a personal Python library. So the +Distutils provide a \code{PLAT} environment variable which will expand +to the current platform name: \begin{verbatim} -python setup.py install --prefix=$HOME/usr \ - --exec-prefix=$HOME/usr.plat +[install] +install-lib=~/lib/python +install-platlib=~/lib/python.$PLAT \end{verbatim} -for various values of \file{plat}. - -% this paragraph is for Michel Sanner ;-) -(Perceptive readers will note that on a multi-platform Python -installation, multiple identical copies of \file{foo/pure.py} will be -installed, one for each platform. This is deliberate. First, it makes -Python's module search algorithm simpler (XXX check this): when you say -\samp{import foo.pure}, Python searches \code{sys.path} until it finds a -directory containing \file{foo/__init__.py}. When it finds one, that -directory is deemed to be the directory containing the \module{foo} -package for this import. Even if the search algorithm were changed -(necessitating a trip back in time to ``fix'' Python 1.5), the only way -to make multiple candidate \module{foo} directories (one for pure -Python, one for extension modules) would be to make copies of -\file{__init__.py}---in which case, why not make copies of all the pure -Python modules? Second, if you kept pure Python modules related to -extension modules in a platform-shared directory, what happens while you -are upgrading your favourite extension from version 1.0 to 1.1 on -platforms X and Y? After you install 1.1 for platform X, the 1.1 -\file{.py} files will be in the platform-shared directory---but the 1.0 -extensions will still be in the platform Y directory. If the interval -between installing 1.1 for platform X and for platform Y is long---e.g., -there are portability problems with platform Y---then there's a good -probability of a version mismatch between the 1.1 Python modules and the -1.0 extensions on platform Y. The solution to both problems is to -install separate copies of the pure Python modules for every platform. -In this day and age, unnecessary disk use is no argument.) - -Other ways to support a multi-platform personal Python library are -discussed below, when we cover the \option{install-lib} and -\option{install-platlib} options. - - -% Gory details on the prefix options (still need to work these into the -% surrounding text): -XXX need to finish these rules and give them some context! -\begin{itemize} -\item \code{sys.exec\_prefix} (and the \option{exec-prefix} option) - only matters on a multi-platform installation. If you don't have a - multi-platform installation (or even know what that is), then you - don't care about \option{exec-prefix}. -\item in a normal Windows installation, \code{sys.prefix} and - \code{sys.exec\_prefix} are both \file{C:\bslash Program Files\bslash - Python}; they are never different under Windows (XXX check!). -\item you may supply \emph{both} of \option{prefix} and - \option{exec-prefix}, or \emph{neither} of them, or \emph{just} - \option{prefix}---but you may not supply just \option{exec-prefix}. -\end{itemize} - - -\subsection{Installation directory options} -\label{sec:install-dirs} - -Most of the time, it's enough to specify just \option{prefix} (and -possibly \option{exec-prefix})---your modules are installed to -\file{lib/python} under one or the other, you add the appropriate -directory to \code{sys.path}, and that's it. - -However, there will inevitably be times when you want finer control over -the installation directories, and that is when the \option{install-lib}, -\option{install-platlib}, and \option{install-path} options are -essential. Normally, \option{install-lib} and \option{install-platlib} -are simply the directories where pure Python modules and extension -modules, respectively, are installed. That is, top-level modules -(modules not in a package) are installed straight to -\option{install-lib} (or \option{install-platlib} if there are any -extensions in the module distribution). (If \option{install-path} is -supplied, then things are a bit more complex; we'll deal with that +(If \code{PLAT} is already defined in your environment, the Distutils +won't override it: that way you can maintain consistency with other +applications that look for a \code{PLAT} variable; this is especially +useful when you refer to \code{PLAT} in your login scripts, as explained below.) -Normally, \option{install-lib} and \option{install-platlib} are derived -from \option{prefix} and/or \option{exec-prefix}. For example, if you -don't supply anything, then \option{prefix} defaults to -\code{sys.prefix}, and \option{install-lib} defaults to -\file{\filevar{prefix}/lib/python1.\filevar{X}/site-packages}. If you -supply \option{prefix} but not \option{install-lib}, then -\option{install-lib} defaults to \file{\filevar{prefix}/lib/python} -(unless you just happen to supply a prefix which equals -\code{sys.prefix}, which is treated the same as if you don't supply -\option{prefix} at all). (The rules for \option{exec-prefix} and -\option{install-platlib} are a bit more complex; the following examples -should clarify. Consult the Distutils source for the gory details.) - -To illustrate, let's go back to our hypothetical pure-Python module -distribution containing \module{mymod}, \module{mypkg.mod1}, and -\module{mypkg.mod2}. If you maintain a personal stash of Python modules -in your home directory, but don't like the \file{\tilde/lib/python} -convention, no problem---you can put the modules right in a -\file{\tilde/python} directory with +(XXX danger danger! this environment-variable-in-config-file thing is +frighteningly make-like: is there any way to avoid it?) + +Again, you have to make sure that your personal Python library appears +in \code{sys.path}, and again the easiest way to do this is to set +\code{PYTHONPATH} in your login scripts. This time, though, you have to +be sure to set \emph{both} directories (platform-neutral and the current +platform-specific directory). For Bourne-shell derivatives: +\begin{verbatim} +export PYTHONPATH=$HOME/lib/python:$HOME/lib/python.$PLAT +\end{verbatim} +and for csh-derivatives: +\begin{verbatim} +setenv PYTHONPATH $HOME/lib/python:$HOME/lib/python.$PLAT +\end{verbatim} +Note that it is your responsibility to set the \code{PATH} environment +variable (unless your system administrator has kindly taken care of it +in the system-wide login scripts, which is a wise thing to do on +multi-platform networks). One way to do this is with the \code{uname} +command: \begin{verbatim} -python setup.py install --install-lib=$HOME/python +export PLAT=`uname -sm | tr 'A-Z ' 'a-z-'` \end{verbatim} -which will install \file{\$HOME/python/mymod.py}, -\file{\$HOME/python/mypkg/mod1.py}, and -\file{\$HOME/python/mypkg/mod2.py}. - -If you happen to install a module distribution that contains extensions, -again that's no problem---in the absence of \option{exec-prefix}, -\option{install-platlib} defaults to \option{install-lib}, so the above -example will also put extension modules in \file{\$HOME/python}. -(XXX is this correct? is this the best way to describe it? should it be -implemented this way or some other way? how should it be described?) - -This may not be what you want, though, if you maintain a multi-platform -stash of Python modules in your home directory. In that case, you need -to specify \option{install-platlib}---this is the directory where module -distributions with extensions will be installed. For example, if you -keep pure Python module distributions in \file{\tilde/python} and -extension distributions in \file{\tilde/python.plat}: +(XXX check that this works well on other Unices: on Linux, \code{-m} +becomes eg. \code{i586}, which is not the \emph{machine} but the +\emph{processor}. Arggh!) + +Of course, there are more reasons to do custom installation than +maintaining a personal Python library. Even if you have write access to +the system-wide directories for third-party modules +(\file{\filevar{prefix}/lib/python1.\filevar{x}/site-packages} and +\file{\filevar{exec-prefix}/lib/python1.\filevar{x}/site-packages}), you +might want to install new module distributions---especially upgrades of +modules that are crucial to your local infrastructure---to a temporary +location, in order to test them before installing them ``for real.'' +This is fundamentally no different from installing to your home +directory, except that you probably won't bother to set +\code{PYTHONPATH} permanently. For example, to install a module +distribution to \file{/tmp/pylib}: \begin{verbatim} -python setup.py install --install-lib=$HOME/python \ - --install-platlib=$HOME/python.plat +python setup.py install --install-lib=/tmp/pylib \end{verbatim} -(Just as with \option{prefix} and \option{exec-prefix}, it's only -necessary to supply one of \option{install-lib} and -\option{install-platlib} for any given module distribution, but to -ensure consistency you should always supply them both using a -configuration file (section~\ref{sec:config-files}).) - -An alternate way to maintain a multi-platform personal Python library is -in \file{\tilde/lib/python} and \file{\tilde/lib/python.plat}. In that -case, you can get away with supplying \option{prefix} and -\option{install-platlib}: +Then, of course, you'll want to run some script that depends on these +modules to make sure that they still work with your installed base of +code: \begin{verbatim} -python setup.py install --prefix=$HOME \ - --install-platlib=$HOME/lib/python.plat +env PYTHONPATH=/tmp/pylib python /usr/local/bin/crucial_script ... \end{verbatim} -Finally, the \option{install-path} option, which exists mainly to gum up -the whole works---but in a productive (and important) way. -Specifically, \option{install-path} exists to give a directory of their -own to module distributions that wouldn't otherwise have one, i.e.\ that -are not distributed as a (Python) package. - -Consider a module distribution, Foo, that consists of (pure Python) -modules \module{foobar}, \module{foobaz}, and \module{fooqux}. -Obviously these are related, and if the project had started in the -Python 1.5 era (and doesn't worry about backwards compatibility with -Python 1.4), they probably would be packaged up and called -\module{foo.bar}, \module{foo.baz}, and \module{foo.qux}. -Unfortunately, they aren't, but we still want the Foo modules to go into -a directory of their own. - -Normally, this will be taken care of by the module developer: he adds a -line \samp{install_path = 'Foo'} to his setup script, which has the -following consequences: -\begin{enumerate} -\item instead of \option{install-lib} the modules would be installed in - \file{\filevar{install-lib}/Foo} -\item if \option{install-lib} is the same as the default - \option{install-lib}---e.g., you supplied neither \option{prefix} or - \option{install-lib}---then a \file{Foo.pth} will be created in - \option{install-lib}, so that Python adds - \file{\filevar{install-lib}/Foo} to \code{sys.path} -\item if \option{install-lib} is not the default, then a warning will be - printed, reminding you to add \file{\filevar{install-lib}/Foo} to - \code{sys.path} yourself, such as with the \code{PYTHONPATH} - environment variable -\end{enumerate} - -Thus, you as a module installer have to be aware of the -\option{install-path} option---especially if you maintain a personal -stash of Python modules and don't have write permission to the standard -library, so Distutils can't create \file{.pth} files for you---but you -don't often have to supply it yourself. There are situations in which -you might want to supply it, though: -\begin{itemize} -\item a module developer forgot to include it (the distribution really - should go in a directory of its own, but it won't unless you make it) -\item you want to override the \option{install-path} supplied by the - developer (e.g., you'd rather have a huge jumble of files in - \file{site-packages} than make Python wade through a bunch of - \file{.pth} files at startup) -\end{itemize} - -The first case is easy: say we're dealing with the Foo distribution -again, but the developer forgot to include \option{install-path}. No -problem, you can supply it on the command line: +Of course, you can do this temporary installation with separate +\option{install-lib} and \option{install-platlib} options. If you're +doing this to a network-wide directory, not \file{/tmp}, this might be +essential. As you might have guessed, it's not too hard: \begin{verbatim} -python setup.py install --install-path=Foo +python setup.py install --install-lib=/scratch/pylib \ + --install-platlib=/scratch/pylib.plat \end{verbatim} -Note that this will work just fine if you supply \option{prefix} or -\option{install-lib}---but of course, you'll probably have to ensure -that the \file{Foo} directory is in \code{sys.path} yourself. - -If you're really fanatical about keeping track of what you have -installed, you might want to supply your own \option{install-path} that -records the version as well as the name of the module distribution; this -overrides any \option{install-path} included by the module developer in -the setup script: +and then, testing your crucial scripts on multiple platforms: \begin{verbatim} -python setup.py install --install-path=Foo-1.3 +env PYTHONPATH=/scratch/pylib:/scratch/pylib.plat \ + python /usr/local/bin/crucial_script ... \end{verbatim} -Finally, you can disable \option{install-path} entirely: +However you do the testing, once you're satisfied that the new version +doesn't break anything, you can install it to the system-wide +third-party module directory as usual: \begin{verbatim} -python setup.py install --install-path='' +python setup.py install \end{verbatim} -...but the mess that will result (modules from many different -distributions in the same \option{install-lib} and -\option{install-platlib} directories) is your own problem. - -% Points to make -% * only one of prefix or exec_prefix matters -% * don't have to specify exec_prefix unless != prefix -% * thus, usually enough to supply prefix -% * only have to supply install_lib if you don't like -% "prefix/lib/python" -% * likewise for install_platlib and exec_prefix -% * don't have to supply install_platlib unless != install_lib (??) -% * in the absence of install_path, top-level modules wind up in -% install_lib or install_platlib -In case you're interested, here are the exact rules for how -\option{install-lib} and \option{install-platlib} are initialized, and -how they and \option{install-path} affect where modules (pure Python and -extensions) are installed to: -\begin{itemize} -\item If you don't supply \option{prefix} (and possibly - \option{exec-prefix}), then \option{install-lib} and - \option{install-platlib} will be, respectively, - \file{\filevar{\$prefix}/lib/python1.\filevar{X}/site-packages} and - \file{\filevar{\$exec\_prefix}/lib/python1.\filevar{X}/site-packages}. In a - normal \UNIX{} installation, both of these resolve to - \file{/usr/local/lib/python1.\filevar{X}/site-packages}. -\item in the absence of an \option{install-path} option, top-level - modules and packages from a pure Python distribution are installed to - \option{install-lib} -\item in the absence of an \option{install-path} option, top-level - modules and packages from a distribution that contains \emph{any} - extension modules are installed to \option{install-platlib}. -\item \emph{there're more, but I don't remember everything offhand} -%\item \option{install-lib} is initialized from \option{prefix} (which -% in turn is initialized from \code{sys.prefix})---so you should -\end{itemize} + + +\subsection{Indirect specification: prefix directories} +\label{sec:prefix-dirs} + +Occasionally, you may want to install a module distribution \section{Custom Installation (Windows)} |