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authorTodd Gamblin <tgamblin@llnl.gov>2015-02-23 01:22:49 -0800
committerTodd Gamblin <tgamblin@llnl.gov>2015-02-23 01:23:30 -0800
commit5699cbb597468911c0b34988512ddea8b4c62ecc (patch)
treec2a7d57320fafe5bc413b182a83f914cf4c84523 /lib
parent6dab133d9f001d5e03fde25bdd3d412adf2a7b56 (diff)
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Fix SPACK-60: 0.8.15 basic docs.
Diffstat (limited to 'lib')
-rw-r--r--lib/spack/docs/basic_usage.rst716
-rw-r--r--lib/spack/docs/packaging_guide.rst74
-rw-r--r--lib/spack/spack/cmd/package-list.py2
3 files changed, 583 insertions, 209 deletions
diff --git a/lib/spack/docs/basic_usage.rst b/lib/spack/docs/basic_usage.rst
index 196b7077f9..bd25d739ea 100644
--- a/lib/spack/docs/basic_usage.rst
+++ b/lib/spack/docs/basic_usage.rst
@@ -4,18 +4,17 @@ Basic usage
=====================
Spack is implemented as a single command (``spack``) with many
-*subcommands*, much like ``git``, ``svn``, ``yum``, or ``apt-get``.
-Only a small subset of commands are needed for typical usage.
-
-This section covers a small set of subcommands that should cover most
-general use cases for Spack.
+*subcommands*. Only a small subset of commands is needed for typical
+usage.
Listing available packages
------------------------------
-The first thing you will likely want to do with spack is find out what
-software is available to install. There are a few relevant commands.
+The first thing you likely want to do with spack is to install some
+software. Before that, you need to know what's available. You can
+see avaialble package names either using the :ref:`package-list`, or
+using the commands below.
``spack list``
~~~~~~~~~~~~~~~~
@@ -36,33 +35,273 @@ do wildcard searches using ``*``:
``spack info``
~~~~~~~~~~~~~~~~
-To get information on a particular package from the full list, run
-``spack info <package name>``. For example, for ``mpich`` the output
-looks like this:
+To get more information on a particular package from `spack list`, use
+`spack info`. Just supply the name of a package:
.. command-output:: spack info mpich
-This includes basic information about the package: where to download
-it, its dependencies, virtual packages it provides (e.g. an MPI
-implementation will provide the MPI interface), and a text
-description, if one is available. :ref:`Dependencies
-<sec-specs>` and :ref:`virtual dependencies
-<sec-virtual-dependencies>` are described in more detail later.
+Most of the information is self-explanatory. *Safe versions* are
+versions that Spack has a checksum for, and Spack will use the
+checksum to ensure they downloaded without any errors or malicious
+attacks. :ref:`Dependencies <sec-specs>` and :ref:`virtual
+dependencies <sec-virtual-dependencies>`, are described in more detail
+later.
``spack versions``
~~~~~~~~~~~~~~~~~~~~~~~~
-To see available versions of a package, run ``spack versions``, for
-example:
+To see *more* available versions of a package, run ``spack versions``,
+for example:
.. command-output:: spack versions libelf
-Since it has to manage many different software packages, Spack doesn't
-place many restrictions on what a package version has to look like.
-Packages like ``mpich`` use traditional version numbers like
-``3.0.4``. Other packages, like ``libdwarf`` use date-stamp versions
-like ``20130729``. Versions can contain numbers, letters, dashes,
-underscores, and periods.
+There are two sections in the output. *Safe versions* are ones that
+have already been checksummed. Spack goes a step further, though, and
+also shows you what versions are available out on the web---these are
+*remote versions*. Spack gets this information by scraping it
+directly from webpages. Depending on the package, Spack may or may
+not be able to find any remote versions.
+
+
+Installing and uninstalling
+------------------------------
+
+Now that you know how to list avaiable packages and versions, you're
+ready to start installing things.
+
+``spack install``
+~~~~~~~~~~~~~~~~~~~~~
+
+``spack install`` will install any package shown by ``spack list``.
+To install the latest version of a pacakge, along with all of its
+dependencies, simply give it a package name:
+
+.. code-block:: sh
+
+ $ spack install mpileaks
+
+If `mpileaks` depends on other packages, Spack will install those
+first. It then fetches the tarball for ``mpileaks``, expands it,
+verifies that it was downloaded without errors, builds it, and
+installs it in its own directory under ``$SPACK_HOME/opt``. You'll see
+a number of messages from spack, a lot of build output, and a message
+that the packages is installed:
+
+.. code-block:: sh
+
+ $ spack install mpileaks
+ ==> Installing mpileaks
+ ==> mpich is already installed in /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/mpich@3.0.4.
+ ==> callpath is already installed in /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/callpath@1.0.2-5dce4318.
+ ==> adept-utils is already installed in /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/adept-utils@1.0-5adef8da.
+ ==> Trying to fetch from https://github.com/hpc/mpileaks/releases/download/v1.0/mpileaks-1.0.tar.gz
+ ######################################################################## 100.0%
+ ==> Staging archive: /home/gamblin2/spack/var/spack/stage/mpileaks@1.0%gcc@4.4.7=chaos_5_x86_64_ib-59f6ad23/mpileaks-1.0.tar.gz
+ ==> Created stage in /home/gamblin2/spack/var/spack/stage/mpileaks@1.0%gcc@4.4.7=chaos_5_x86_64_ib-59f6ad23.
+ ==> No patches needed for mpileaks.
+ ==> Building mpileaks.
+
+ ... build output ...
+
+ ==> Successfully installed mpileaks.
+ Fetch: 2.16s. Build: 9.82s. Total: 11.98s.
+ [+] /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/mpileaks@1.0-59f6ad23
+
+The last line, with the ``[+]``, indicates where the package is
+installed.
+
+Building a specific version
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Spack can also build *specific versions* of a package. To do this,
+just add ``@`` after the package name, followed by a version:
+
+.. code-block:: sh
+
+ $ spack install mpich@3.0.4
+
+Any number of versions of the same package can be installed at once
+without interfering with each other. This is good for multi-user
+sites, as installing a version that one user needs will not disrupt
+existing installations for other users.
+
+In addition to different versions, Spack can customize the compiler,
+compile-time options (variants), and platform (for cross compiles) of
+an installation. Spack is unique in that it can also configure the
+*dependencies* a package is built with. For example, two
+configurations of the same version of a package, one built with boost
+1.39.0, and the other version built with version 1.43.0, can coexist.
+
+This can all be done on the command line using special syntax. Spack
+calls the descriptor used to refer to a particular package
+configuration a **spec**. In the command lines above, both
+``mpileaks`` and ``mpileaks@3.0.4`` are specs. Specs are described in
+detail in :ref:`sec-specs`.
+
+
+``spack uninstall``
+~~~~~~~~~~~~~~~~~~~~~
+
+To uninstall a package, type ``spack uninstall <package>``. This will
+completely remove the directory in which the package was installed.
+
+.. code-block:: sh
+
+ spack uninstall mpich
+
+If there are still installed packages that depend on the package to be
+uninstalled, spack will refuse to uninstall it. You can override this
+behavior with ``spack uninstall -f <package>``, but you risk breaking
+other installed packages. In general, it is safer to remove dependent
+packages *before* removing their dependencies.
+
+A line like ``spack uninstall mpich`` may be ambiguous, if multiple
+``mpich`` configurations are installed. For example, if both
+``mpich@3.0.2`` and ``mpich@3.1`` are installed, ``mpich`` could refer
+to either one. Because it cannot determine which one to uninstall,
+Spack will ask you to provide a version number to remove the
+ambiguity. As an example, ``spack uninstall mpich@3.1`` is
+unambiguous in this scenario.
+
+
+Seeing installed packages
+-----------------------------------
+
+We know that ``spack list`` shows you the names of available packages,
+but how do you figure out which are installed?
+
+
+``spack find``
+~~~~~~~~~~~~~~~~~~~~~~
+
+``spack find`` shows the *specs* of installed packages. A spec is
+like a name, but it has a version, compiler, architecture, and build
+options associated with it. In spack, you can have many installations
+of the same package with different specs.
+
+Running ``spack find`` with no arguments lists installed packages:
+
+.. code-block:: sh
+
+ $ spack find
+ ==> 74 installed packages.
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ ImageMagick@6.8.9-10 libdwarf@20130729 py-dateutil@2.4.0
+ adept-utils@1.0 libdwarf@20130729 py-ipython@2.3.1
+ atk@2.14.0 libelf@0.8.12 py-matplotlib@1.4.2
+ boost@1.55.0 libelf@0.8.13 py-nose@1.3.4
+ bzip2@1.0.6 libffi@3.1 py-numpy@1.9.1
+ cairo@1.14.0 libmng@2.0.2 py-pygments@2.0.1
+ callpath@1.0.2 libpng@1.6.16 py-pyparsing@2.0.3
+ cmake@3.0.2 libtiff@4.0.3 py-pyside@1.2.2
+ dbus@1.8.6 libtool@2.4.2 py-pytz@2014.10
+ dbus@1.9.0 libxcb@1.11 py-setuptools@11.3.1
+ dyninst@8.1.2 libxml2@2.9.2 py-six@1.9.0
+ fontconfig@2.11.1 libxml2@2.9.2 python@2.7.8
+ freetype@2.5.3 llvm@3.0 qhull@1.0
+ gdk-pixbuf@2.31.2 memaxes@0.5 qt@4.8.6
+ glib@2.42.1 mesa@8.0.5 qt@5.4.0
+ graphlib@2.0.0 mpich@3.0.4 readline@6.3
+ gtkplus@2.24.25 mpileaks@1.0 sqlite@3.8.5
+ harfbuzz@0.9.37 mrnet@4.1.0 stat@2.1.0
+ hdf5@1.8.13 ncurses@5.9 tcl@8.6.3
+ icu@54.1 netcdf@4.3.3 tk@src
+ jpeg@9a openssl@1.0.1h vtk@6.1.0
+ launchmon@1.0.1 pango@1.36.8 xcb-proto@1.11
+ lcms@2.6 pixman@0.32.6 xz@5.2.0
+ libdrm@2.4.33 py-dateutil@2.4.0 zlib@1.2.8
+
+ -- chaos_5_x86_64_ib / gcc@4.9.2 --------------------------------
+ libelf@0.8.10 mpich@3.0.4
+
+Packages are divided into groups according to their architecture and
+compiler. Within each group, Spack tries to keep the view simple, and
+only shows the version of installed packages.
+
+In some cases, there may be differnt configurations of the *same*
+version of a package installed. For example, there are two
+installations of of ``libdwarf@20130729`` above. We can look at them
+in more detail using ``spack find -d``, and by asking only to show
+``libdwarf`` packages:
+
+.. code-block:: sh
+
+ $ spack find --deps libdwarf
+ ==> 2 installed packages.
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ libdwarf@20130729-d9b90962
+ ^libelf@0.8.12
+ libdwarf@20130729-b52fac98
+ ^libelf@0.8.13
+
+Now we see that the two instances of ``libdwarf`` depend on
+*different* versions of ``libelf``: 0.8.12 and 0.8.13. This view can
+become complicated for packages with many dependencies. If you just
+want to know whether two packages' dependencies differ, you can use
+``spack find -l``:
+
+.. code-block:: sh
+
+ $ spack find -l libdwarf
+ ==> 2 installed packages.
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ libdwarf@20130729-d9b90962 libdwarf@20130729-b52fac98
+
+Now the ``libwarf`` installs have hashes after their names. These are
+hashes over all of the dependencies of each package. If the hashes
+are the same, then the packages have the same dependency configuration.
+
+If you want to know the path where each package is installed, you can
+use ``spack find -p``:
+
+.. code-block:: sh
+
+ $ spack find -p
+ ==> 74 installed packages.
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ ImageMagick@6.8.9-10 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/ImageMagick@6.8.9-10-4df950dd
+ adept-utils@1.0 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/adept-utils@1.0-5adef8da
+ atk@2.14.0 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/atk@2.14.0-3d09ac09
+ boost@1.55.0 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/boost@1.55.0
+ bzip2@1.0.6 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/bzip2@1.0.6
+ cairo@1.14.0 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/cairo@1.14.0-fcc2ab44
+ callpath@1.0.2 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/callpath@1.0.2-5dce4318
+ ...
+
+And, finally, you can restrict your search to a particular package
+by supplying its name:
+
+.. code-block:: sh
+
+ $ spack find -p libelf
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ libelf@0.8.11 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.11
+ libelf@0.8.12 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.12
+ libelf@0.8.13 /home/gamblin2/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.13
+
+``spack find`` actually does a lot more than this. You can use
+*specs* to query for specific configurations and builds of each
+package. If you want to find only libelf versions greater than version
+0.8.12, you could say:
+
+.. code-block:: sh
+
+ $ spack find libelf@0.8.12:
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ libelf@0.8.12 libelf@0.8.13
+
+Finding just the versions of libdwarf built with a particular version
+of libelf would look like this:
+
+.. code-block:: sh
+
+ $ spack find -l libdwarf ^libelf@0.8.12
+ ==> 1 installed packages.
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ libdwarf@20130729-d9b90962
+
+The full spec syntax is discussed in detail in :ref:`sec-specs`.
+
Compiler Configuration
-----------------------------------
@@ -110,15 +349,18 @@ where the compiler is installed. For example::
intel@13.0.079
Or you can run ``spack compiler add`` with no arguments to force
-autodetection. This is useful if you do not know where compilers
-live, but new compilers have been added to your ``PATH``. For
-example, using dotkit, you might do this::
+autodetection. This is useful if you do not know where compilers are
+installed, but you know that new compilers have been added to your
+``PATH``. For example, using dotkit, you might do this::
- $ use gcc-4.9.0
+ $ module load gcc-4.9.0
$ spack compiler add
==> Added 1 new compiler to /Users/gamblin2/.spackconfig
gcc@4.9.0
+This loads the environment module for gcc-4.9.0 to get it into the
+``PATH``, and then it adds the compiler to Spack.
+
``spack compiler info``
~~~~~~~~~~~~~~~~~~~~~~~
@@ -126,17 +368,20 @@ example, using dotkit, you might do this::
If you want to see specifics on a particular compiler, you can run
``spack compiler info`` on it::
- $ spack compiler info intel@12.1.3
- intel@12.1.3:
- cc = /usr/local/bin/icc-12.1.293
- cxx = /usr/local/bin/icpc-12.1.293
- f77 = /usr/local/bin/ifort-12.1.293
- fc = /usr/local/bin/ifort-12.1.293
+ $ spack compiler info intel@15
+ intel@15.0.0:
+ cc = /usr/local/bin/icc-15.0.090
+ cxx = /usr/local/bin/icpc-15.0.090
+ f77 = /usr/local/bin/ifort-15.0.090
+ fc = /usr/local/bin/ifort-15.0.090
This shows which C, C++, and Fortran compilers were detected by Spack.
+Notice also that we didn't have to be too specific about the
+version. We just said ``intel@15``, and information about the only
+matching Intel compiler was displayed.
-Manual configuration
+Manual compiler configuration
~~~~~~~~~~~~~~~~~~~~~~~
If autodetection fails, you can manually conigure a compiler by
@@ -153,8 +398,8 @@ Each compiler configuration in the file looks like this::
fc = /usr/local/bin/ifort-15.0.024-beta
...
-For compilers, like ``clang``, that do not support Fortran, you can simply
-put ``None`` for ``f77`` and ``fc``::
+For compilers, like ``clang``, that do not support Fortran, put
+``None`` for ``f77`` and ``fc``::
[compiler "clang@3.3svn"]
cc = /usr/bin/clang
@@ -163,169 +408,7 @@ put ``None`` for ``f77`` and ``fc``::
fc = None
Once you save the file, the configured compilers will show up in the
-list displayed when you run ``spack compilers``.
-
-
-Seeing installed packages -----------------------------------
-
-``spack find``
-~~~~~~~~~~~~~~~~~~~~~~
-
-The second thing you're likely to want to do with Spack, and the first
-thing users of your system will likely want to do, is to find what
-software is already installed and ready to use. You can do that with
-``spack find``.
-
-Running ``spack find`` with no arguments will list all the installed
-packages:
-
-.. code-block:: sh
-
- $ spack find
- == chaos_5_x86_64_ib ===========================================
- -- gcc@4.4.7 ---------------------------------------------------
- libdwarf@20130207-d9b909
- libdwarf@20130729-d9b909
- libdwarf@20130729-b52fac
- libelf@0.8.11
- libelf@0.8.12
- libelf@0.8.13
-
-Packages are grouped by architecture, then by the compiler used to
-build them, and then by their versions and options. If a package has
-dependencies, there will also be a hash at the end of the name
-indicating the dependency configuration. Packages with the same hash
-have the same dependency configuration. If you want ALL information
-about dependencies, as well, then you can supply ``-l`` or ``--long``:
-
-.. code-block:: sh
-
- $ spack find -l
- == chaos_5_x86_64_ib ===========================================
- -- gcc@4.4.7 ---------------------------------------------------
- libdwarf@20130207
- ^libelf@0.8.12
- libdwarf@20130729
- ^libelf@0.8.12
- libdwarf@20130729
- ^libelf@0.8.13
- libelf@0.8.11
- libelf@0.8.12
- libelf@0.8.13
-
-Now you can see which versions of ``libelf`` each version of
-``libdwarf`` was built with.
-
-If you want to know the path where each of these packages is
-installed, do ``spack find -p`` or ``--path``:
-
-.. code-block:: sh
-
- $ spack find -p
- == chaos_5_x86_64_ib ===========================================
- -- gcc@4.4.7 ---------------------------------------------------
- libdwarf@20130207-d9b909 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libdwarf@20130207-d9b909
- libdwarf@20130729-d9b909 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libdwarf@20130729-d9b909
- libdwarf@20130729-b52fac /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libdwarf@20130729-b52fac
- libelf@0.8.11 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.11
- libelf@0.8.12 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.12
- libelf@0.8.13 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.13
-
-
-And, finally, you can restrict your search to a particular package
-by supplying its name:
-
-.. code-block:: sh
-
- $ spack find -p libelf
- == chaos_5_x86_64_ib ===========================================
- -- gcc@4.4.7 ---------------------------------------------------
- libelf@0.8.11 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.11
- libelf@0.8.12 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.12
- libelf@0.8.13 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/libelf@0.8.13
-
-
-``spack find`` actually does a lot more than this. You can use
-*specs* to query for specific configurations and builds of each
-package. The full spec syntax is discussed in detail in
-:ref:`sec-specs`.
-
-
-
-Installing and uninstalling
-------------------------------
-
-``spack install``
-~~~~~~~~~~~~~~~~~~~~~
-
-``spack install`` will install any package that appears in the output
-of ``spack list``. To install the latest version of a pacakge and all
-of its dependencies, simply run ``spack install <package>``:
-
-.. code-block:: sh
-
- spack install mpileaks
-
-Spack will fetch the tarball for ``mpileaks``, expand it, verify that
-it was downloaded without errors, build it, and install it in its own
-directory under ``$SPACK_HOME/opt``. If the requested package depends
-on other packages in order to build, Spack fetches them as well, and
-installs them before it installs the requested package. Like the main
-package, each dependency is also installed in its own directory.
-
-Spack can also build *specific* configurations of a package. For
-example, to install something with a specific version, add ``@`` after
-the package name, followed by a version string:
-
-.. code-block:: sh
-
- spack install mpich@3.0.4
-
-Any number of configurations of the same package can be installed at
-once without interfering with each other. This is good for multi-user
-sites, as installing a version that one user needs will not disrupt
-existing installations for other users.
-
-In addition to version configuraitons, Spack can customize the
-compiler, compile-time options (variants), and platform (for cross
-compiles) of an installation. Spack is unique in that it can also
-configure the *dependencies* a package is built with. For example,
-two configurations of the same version of a package, one built with
-boost 1.39.0, and the other version built with version 1.43.0, can
-coexist.
-
-This can all be done on the command line using special syntax. Spack
-calls the descriptor used to refer to a particular package
-configuration a **spec**. In the command lines above, both
-``mpileaks`` and ``mpileaks@3.0.4`` are specs. To customize
-additional properties, simply add more attributes to the spec. Specs
-and their syntax are covered in more detail in :ref:`sec-specs`.
-
-
-``spack uninstall``
-~~~~~~~~~~~~~~~~~~~~~
-
-To uninstall a package, type ``spack uninstall <package>``. This will
-completely remove the directory in which the package was installed.
-
-.. code-block:: sh
-
- spack uninstall mpich
-
-If there are still installed packages that depend on the package to be
-uninstalled, spack will refuse to uninstall. If you know what you're
-doing, you can override this with ``spack uninstall -f <package>``.
-However, running this risks breaking other installed packages. In
-general, it is safer to remove dependent packages *before* removing
-their dependencies.
-
-A line like ``spack uninstall mpich`` may be ambiguous, if multiple
-``mpich`` configurations are installed. For example, if both
-``mpich@3.0.2`` and ``mpich@3.1`` are installed, it could refer to
-either one, and Spack cannot determine which one to uninstall. Spack
-will ask you to provide a version number to remove the ambiguity. For
-example, ``spack uninstall mpich@3.1`` is unambiguous in the above
-scenario.
+list displayed by ``spack compilers``.
.. _sec-specs:
@@ -333,10 +416,10 @@ scenario.
Specs & Dependencies
-------------------------
-We now know that ``spack install`` and ``spack uninstall`` both take a
-package name with an optional version specifier. In Spack, that
-descriptor is called a *spec*. Spack uses specs to refer to a
-particular build configuration (or configurations) of a package.
+We know that ``spack install``, ``spack uninstall``, and other
+commands take a package name with an optional version specifier. In
+Spack, that descriptor is called a *spec*. Spack uses specs to refer
+to a particular build configuration (or configurations) of a package.
Specs are more than a package name and a version; you can use them to
specify the compiler, compiler version, architecture, compile options,
and dependency options for a build. In this section, we'll go over
@@ -499,6 +582,11 @@ based on site policies.
Variants
~~~~~~~~~~~~~~~~~~~~~~~
+.. Note::
+
+ Variants are not yet supported, but will be in the next Spack
+ release (0.9), due in Q2 2015.
+
Variants are named options associated with a particular package, and
they can be turned on or off. For example, above, supplying
``+debug`` causes ``mpileaks`` to be built with debug flags. The
@@ -544,6 +632,11 @@ the command line is provided for convenience and legibility.
Architecture specifier
~~~~~~~~~~~~~~~~~~~~~~~
+.. Note::
+
+ Architecture specifiers are part of specs but are not yet
+ functional. They will be in Spack version 1.0, due in Q3 2015.
+
The architecture specifier starts with a ``=`` and also comes after
some package name within a spec. It allows a user to specify a
particular architecture for the package to be built. This is mostly
@@ -678,10 +771,6 @@ For ``csh`` and ``tcsh`` run:
You can put the above code in your ``.bashrc`` or ``.cshrc``, and
Spack's shell support will be available on the command line.
-
--------------------------------
-
-
When you install a package with Spack, it automatically generates an
environment module that lets you add the package to your environment.
@@ -710,7 +799,7 @@ of installed packages.
$ module avail
- ------- /g/g21/gamblin2/src/spack/share/spack/modules/chaos_5_x86_64_ib --------
+ ------- /home/gamblin2/spack/share/spack/modules/chaos_5_x86_64_ib --------
adept-utils@1.0%gcc@4.4.7-5adef8da libelf@0.8.13%gcc@4.4.7
automaded@1.0%gcc@4.4.7-d9691bb0 libelf@0.8.13%intel@15.0.0
boost@1.55.0%gcc@4.4.7 mpc@1.0.2%gcc@4.4.7-559607f5
@@ -858,6 +947,215 @@ regenerate all module and dotkit files from scratch:
==> Regenerating tcl module files.
==> Regenerating dotkit module files.
+
+.. _extensions:
+
+Extensions & Python Support
+------------------------------------
+
+Spack's installation model assumes that each package will live in its
+own install prefix. However, certain packages are typically installed
+*within* the directory hierarchy of other packages. For example,
+modules in interpreted languages like `Python
+<https://www.python.org>`_ are typically installed in the
+``$prefix/lib/python-2.7/site-packages`` directory.
+
+Spack has support for this type of installation as well. In Spack,
+a package that can live inside the prefix of another package is called
+an *extension*. Suppose you have Python installed like so:
+
+.. code-block:: sh
+
+ $ spack find python
+ ==> 1 installed packages.
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ python@2.7.8
+
+``spack extensions``
+~~~~~~~~~~~~~~~~~~~~~~~
+
+You can find extensions for your Python installation like this:
+
+.. code-block:: sh
+
+ $ spack extensions python
+ ==> python@2.7.8%gcc@4.4.7=chaos_5_x86_64_ib-703c7a96
+ ==> 36 extensions:
+ geos py-ipython py-pexpect py-pyside py-sip
+ py-basemap py-libxml2 py-pil py-pytz py-six
+ py-biopython py-mako py-pmw py-rpy2 py-sympy
+ py-cython py-matplotlib py-pychecker py-scientificpython py-virtualenv
+ py-dateutil py-mpi4py py-pygments py-scikit-learn
+ py-epydoc py-mx py-pylint py-scipy
+ py-gnuplot py-nose py-pyparsing py-setuptools
+ py-h5py py-numpy py-pyqt py-shiboken
+
+ ==> 12 installed:
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ py-dateutil@2.4.0 py-nose@1.3.4 py-pyside@1.2.2
+ py-dateutil@2.4.0 py-numpy@1.9.1 py-pytz@2014.10
+ py-ipython@2.3.1 py-pygments@2.0.1 py-setuptools@11.3.1
+ py-matplotlib@1.4.2 py-pyparsing@2.0.3 py-six@1.9.0
+
+ ==> None activated.
+
+The extensions are a subset of what's returned by ``spack list``, and
+they are packages like any ohter. They are installed into their own
+prefixes, and you can see this with ``spack find -p``:
+
+.. code-block:: sh
+ $ spack find -p py-numpy
+ ==> 1 installed packages.
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ py-numpy@1.9.1 /g/g21/gamblin2/src/spack/opt/chaos_5_x86_64_ib/gcc@4.4.7/py-numpy@1.9.1-66733244
+
+However, even though this package is installed, you cannot use it
+directly when you run ``python``:
+
+.. code-block:: sh
+
+ $ spack load python
+ $ python
+ Python 2.7.8 (default, Feb 17 2015, 01:35:25)
+ [GCC 4.4.7 20120313 (Red Hat 4.4.7-11)] on linux2
+ Type "help", "copyright", "credits" or "license" for more information.
+ >>> import numpy
+ Traceback (most recent call last):
+ File "<stdin>", line 1, in <module>
+ ImportError: No module named numpy
+ >>>
+
+Extensions & Environment Modules
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+There are two ways to get ``numpy`` working in Python. The first is
+to use :ref:`shell-support`. You can simply ``use`` or ``load`` the
+module for the extension, and it will be added to the ``PYTHONPATH``
+in your current shell.
+
+For tcl modules:
+
+.. code-block:: sh
+
+ $ spack load python
+ $ spack load py-numpy
+
+or, for dotkit:
+
+.. code-block:: sh
+
+ $ spack use python
+ $ spack use py-numpy
+
+Now ``import numpy`` will succeed for as long as you keep your current
+session open.
+
+
+Activating Extensions
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+It is often desirable to have certain packages *always* available as
+part of a Python installation. Spack offers a more permanent solution
+for this case. Instead of requiring users to load particular
+environment modules, you can *activate* the package within the Python
+installation:
+
+``spack activate``
+^^^^^^^^^^^^^^^^^^^^^^^
+
+.. code-block:: sh
+
+ $ spack activate py-numpy
+ ==> Activated extension py-setuptools@11.3.1%gcc@4.4.7=chaos_5_x86_64_ib-3c74eb69 for python@2.7.8%gcc@4.4.7.
+ ==> Activated extension py-nose@1.3.4%gcc@4.4.7=chaos_5_x86_64_ib-5f70f816 for python@2.7.8%gcc@4.4.7.
+ ==> Activated extension py-numpy@1.9.1%gcc@4.4.7=chaos_5_x86_64_ib-66733244 for python@2.7.8%gcc@4.4.7.
+
+Several things have happened here. The user requested that
+``py-numpy`` be activated in the ``python`` installation it was built
+with. Spack knows that ``py-numpy`` depends on ``py-nose`` and
+``py-setuptools``, so it activated those packages first. Finally,
+once all dpeendencies were activated in the ``python`` installation,
+``py-numpy`` was activated as well.
+
+If we run ``spack extensions`` again, we now see the three new
+packages listed as activated:
+
+.. code-block:: sh
+
+ $ spack extensions python
+ ==> python@2.7.8%gcc@4.4.7=chaos_5_x86_64_ib-703c7a96
+ ==> 36 extensions:
+ geos py-ipython py-pexpect py-pyside py-sip
+ py-basemap py-libxml2 py-pil py-pytz py-six
+ py-biopython py-mako py-pmw py-rpy2 py-sympy
+ py-cython py-matplotlib py-pychecker py-scientificpython py-virtualenv
+ py-dateutil py-mpi4py py-pygments py-scikit-learn
+ py-epydoc py-mx py-pylint py-scipy
+ py-gnuplot py-nose py-pyparsing py-setuptools
+ py-h5py py-numpy py-pyqt py-shiboken
+
+ ==> 12 installed:
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ py-dateutil@2.4.0 py-nose@1.3.4 py-pyside@1.2.2
+ py-dateutil@2.4.0 py-numpy@1.9.1 py-pytz@2014.10
+ py-ipython@2.3.1 py-pygments@2.0.1 py-setuptools@11.3.1
+ py-matplotlib@1.4.2 py-pyparsing@2.0.3 py-six@1.9.0
+
+ ==> 3 currently activated:
+ -- chaos_5_x86_64_ib / gcc@4.4.7 --------------------------------
+ py-nose@1.3.4 py-numpy@1.9.1 py-setuptools@11.3.1
+
+
+Now, when a user runs python, ``numpy`` will be avaiable for import
+*without* the user having to explicitly loaded. ``python@2.7.8`` now
+acts like a system Python installation with ``numpy`` installed inside
+of it.
+
+Spack accomplishes this by symbolically linking the *entire* prefix of
+the ``py-numpy`` into the prefix of the ``python`` package. To the
+python interpreter, it looks like ``numpy`` is installed in the
+``site-packages`` directory.
+
+The only limitation of activation is that you can only have a *single*
+version of an extension activated at a time. This is because multiple
+versions of the same extension would conflict if symbolically linked
+into the same prefix. Users who want a different version of a package
+can still get it by using environment modules, but they will have to
+explicitly load their preferred version.
+
+``spack activate -f``
+^^^^^^^^^^^^^^^^^^^^^^^^^
+If, for some reason, you want to activate a package *without* its
+dependencies, you can use ``spack activate -f``:
+
+.. code-block:: sh
+
+ $ spack activate -f py-numpy
+ ==> Activated extension py-numpy@1.9.1%gcc@4.4.7=chaos_5_x86_64_ib-66733244 for python@2.7.8%gcc@4.4.7.
+
+
+``spack deactivate``
+^^^^^^^^^^^^^^^^^^^^^^^^^
+
+We've seen how activating an extension can be used to set up a default
+version of a Python module. Obviously, you may want to change that at
+some point. ``spack deactivate`` is the command for this. There are
+several variants:
+
+ * ``spack deactivate <extension>`` will deactivate a single
+ extension. If another activated extension depends on this one,
+ Spack will warn you and exit with an error.
+ * ``spack deactivate -f <extension>`` deactivates an extension
+ regardless of packages that depend on it.
+ * ``spack deactivate -a <extension>`` deactivates an extension and
+ all of its dependencies. Use ``-f`` to disregard dependents.
+ * ``spack deactivate -a <extendee>`` deactivates *all* activated
+ extensions of a package. For example, to deactivate *all* python
+ extensions, use::
+
+ spack deactivate -a python
+
+
Getting Help
-----------------------
diff --git a/lib/spack/docs/packaging_guide.rst b/lib/spack/docs/packaging_guide.rst
index ec2ca4d099..e5ebdb4cd2 100644
--- a/lib/spack/docs/packaging_guide.rst
+++ b/lib/spack/docs/packaging_guide.rst
@@ -2032,6 +2032,80 @@ to get rid of the install prefix before you build again:
spack uninstall -f <spec>
+Graphing Dependencies
+--------------------------
+
+Spack provides the ``spack graph`` command for graphing dependencies.
+The command by default generates an ASCII rendering of a spec's
+dependency graph. For example::
+
+ $ spack graph mpileaks
+ o mpileaks
+ |\
+ | |\
+ | o | callpath
+ |/| |
+ | |\|
+ | |\ \
+ | | |\ \
+ | | | | o adept-utils
+ | |_|_|/|
+ |/| | | |
+ o | | | | mpi
+ / / / /
+ | | o | dyninst
+ | |/| |
+ |/|/| |
+ | | |/
+ | o | libdwarf
+ |/ /
+ o | libelf
+ /
+ o boost
+
+At the top is the root package in the DAG, with dependency edges
+emerging from it. On a color terminal, the edges are colored by which
+dependency they lead to.
+
+You can also use ``spack graph`` to generate graphs in the widely used
+`Dot <http://www.graphviz.org/doc/info/lang.html>`_ format. For
+example::
+
+ $ spack graph --dot mpileaks
+ digraph G {
+ label = "Spack Dependencies"
+ labelloc = "b"
+ rankdir = "LR"
+ ranksep = "5"
+
+ "boost" [label="boost"]
+ "callpath" [label="callpath"]
+ "libdwarf" [label="libdwarf"]
+ "mpileaks" [label="mpileaks"]
+ "mpi" [label="mpi"]
+ "adept-utils" [label="adept-utils"]
+ "dyninst" [label="dyninst"]
+ "libelf" [label="libelf"]
+
+ "callpath" -> "dyninst"
+ "callpath" -> "adept-utils"
+ "callpath" -> "mpi"
+ "callpath" -> "libelf"
+ "callpath" -> "libdwarf"
+ "libdwarf" -> "libelf"
+ "mpileaks" -> "adept-utils"
+ "mpileaks" -> "callpath"
+ "mpileaks" -> "mpi"
+ "adept-utils" -> "boost"
+ "adept-utils" -> "mpi"
+ "dyninst" -> "boost"
+ "dyninst" -> "libelf"
+ "dyninst" -> "libdwarf"
+ }
+
+This graph can be provided as input to other graphing tools, such as
+those in `Graphviz <http://www.graphviz.org>`_.
+
Interactive Shell Support
--------------------------
diff --git a/lib/spack/spack/cmd/package-list.py b/lib/spack/spack/cmd/package-list.py
index 87c528881e..073363db0f 100644
--- a/lib/spack/spack/cmd/package-list.py
+++ b/lib/spack/spack/cmd/package-list.py
@@ -49,6 +49,8 @@ def print_rst_package_list():
"""Print out information on all packages in restructured text."""
pkgs = sorted(spack.db.all_packages(), key=lambda s:s.name.lower())
+ print ".. _package-list:"
+ print
print "Package List"
print "=================="