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-rw-r--r--lib/spack/docs/basic_usage.rst2
-rw-r--r--lib/spack/docs/getting_started.rst78
-rw-r--r--lib/spack/spack/compilers/nag.py4
3 files changed, 57 insertions, 27 deletions
diff --git a/lib/spack/docs/basic_usage.rst b/lib/spack/docs/basic_usage.rst
index 878f0df0dd..24b53b7593 100644
--- a/lib/spack/docs/basic_usage.rst
+++ b/lib/spack/docs/basic_usage.rst
@@ -1357,7 +1357,7 @@ will add a ``python-2.7.12`` version string to any packages compiled with
python matching the spec, ``python@2.7.12``. This is useful to know which
version of python a set of python extensions is associated with. Likewise, the
``openblas`` string is attached to any program that has openblas in the spec,
-most likely via the ``+blas`` variant specification.
+most likely via the ``+blas`` variant specification.
^^^^^^^^^^^^^^^^^^^^^^^^^
Regenerating Module files
diff --git a/lib/spack/docs/getting_started.rst b/lib/spack/docs/getting_started.rst
index ddb9ba7a09..a125af70e4 100644
--- a/lib/spack/docs/getting_started.rst
+++ b/lib/spack/docs/getting_started.rst
@@ -324,7 +324,7 @@ by adding the following to your ``packages.yaml`` file:
compiler: [gcc@4.9.3]
-.. note::
+.. tip::
If you are building your own compiler, some users prefer to have a
Spack instance just for that. For example, create a new Spack in
@@ -393,11 +393,13 @@ build your own, plus modules:
#. Once the compiler is installed, you should be able to test it by
using Spack to load the module it just created, and running simple
- builds (eg: ``cc helloWorld.c; ./a.out``)
+ builds (eg: ``cc helloWorld.c && ./a.out``)
#. Add the newly-installed compiler to ``compilers.yaml`` as shown
above.
+.. _mixed-toolchains:
+
^^^^^^^^^^^^^^^^
Mixed Toolchains
^^^^^^^^^^^^^^^^
@@ -509,16 +511,17 @@ compilers:
features (``spack install gcc``).
#. Tell the Intel compiler how to find that desired GCC. This may be
- done in one of two ways: (text taken from `Intel Reference Guide
- <https://software.intel.com/en-us/node/522750>`_):
+ done in one of two ways:
+
+ "By default, the compiler determines which version of ``gcc`` or ``g++``
+ you have installed from the ``PATH`` environment variable.
- > By default, the compiler determines which version of ``gcc`` or ``g++``
- > you have installed from the ``PATH`` environment variable.
- >
- > If you want use a version of ``gcc`` or ``g++`` other than the default
- > version on your system, you need to use either the ``-gcc-name``
- > or ``-gxx-name`` compiler option to specify the path to the version of
- > ``gcc`` or ``g++`` that you want to use.
+ If you want use a version of ``gcc`` or ``g++`` other than the default
+ version on your system, you need to use either the ``-gcc-name``
+ or ``-gxx-name`` compiler option to specify the path to the version of
+ ``gcc`` or ``g++`` that you want to use."
+
+ -- `Intel Reference Guide <https://software.intel.com/en-us/node/522750>`_
Intel compilers may therefore be configured in one of two ways with
Spack: using modules, or using compiler flags.
@@ -556,11 +559,6 @@ configuration in ``compilers.yaml`` illustrates this technique:
Command Line Configuration
""""""""""""""""""""""""""
-. warning::
-
- As of the writing of this manual, added compilers flags are broken;
- see `GitHub Issue <https://github.com/LLNL/spack/pull/1532>`_.
-
One can also control which GCC is seen by the Intel compiler by adding
flags to the ``icc`` command:
@@ -616,7 +614,7 @@ distinguishable by their names. "Old" compilers:
Older installations of PGI contains just the old compilers; whereas
newer installations contain the old and the new. The new compiler is
considered preferable, as some packages
-(``hdf4``) will not build with the old compiler.
+(``hdf``) will not build with the old compiler.
When auto-detecting a PGI compiler, there are cases where Spack will
find the old compilers, when you really want it to find the new
@@ -641,7 +639,7 @@ Other issues:
.. note::
- It is believed the problem with ``hdf4`` is that everything is
+ It is believed the problem with HDF 4 is that everything is
compiled with the ``F77`` compiler, but at some point some Fortran
90 code slipped in there. So compilers that can handle both FORTRAN
77 and Fortran 90 (``gfortran``, ``pgfortran``, etc) are fine. But
@@ -653,9 +651,40 @@ Other issues:
NAG
^^^
-At this point, the NAG compiler is `known to not
-work<https://github.com/LLNL/spack/issues/590>`.
+The Numerical Algorithms Group provides a licensed Fortran compiler. Like Clang,
+this requires you to set up a :ref:`mixed-toolchains`. It is recommended to use
+GCC for your C/C++ compilers.
+
+The NAG Fortran compilers are a bit more strict than other compilers, and many
+packages will fail to install with error messages like:
+
+.. code-block:: none
+
+ Error: mpi_comm_spawn_multiple_f90.f90: Argument 3 to MPI_COMM_SPAWN_MULTIPLE has data type DOUBLE PRECISION in reference from MPI_COMM_SPAWN_MULTIPLEN and CHARACTER in reference from MPI_COMM_SPAWN_MULTIPLEA
+In order to convince the NAG compiler not to be too picky about calling conventions,
+you can use ``FFLAGS=-mismatch`` and ``FCFLAGS=-mismatch``. This can be done through
+the command line:
+
+.. code-block:: console
+
+ $ spack install openmpi fflags=\"-mismatch\"
+
+Or it can be set permanently in your ``compilers.yaml``:
+
+.. code-block:: yaml
+
+ - compiler:
+ modules: []
+ operating_system: centos6
+ paths:
+ cc: /soft/spack/opt/spack/linux-x86_64/gcc-5.3.0/gcc-6.1.0-q2zosj3igepi3pjnqt74bwazmptr5gpj/bin/gcc
+ cxx: /soft/spack/opt/spack/linux-x86_64/gcc-5.3.0/gcc-6.1.0-q2zosj3igepi3pjnqt74bwazmptr5gpj/bin/g++
+ f77: /soft/spack/opt/spack/linux-x86_64/gcc-4.4.7/nag-6.1-jt3h5hwt5myezgqguhfsan52zcskqene/bin/nagfor
+ fc: /soft/spack/opt/spack/linux-x86_64/gcc-4.4.7/nag-6.1-jt3h5hwt5myezgqguhfsan52zcskqene/bin/nagfor
+ flags:
+ fflags: -mismatch
+ spec: nag@6.1
---------------
System Packages
@@ -663,7 +692,7 @@ System Packages
Once compilers are configured, one needs to determine which
pre-installed system packages, if any, to use in builds. This is
-configured in the file `~/.spack/packages.yaml`. For example, to use
+configured in the file ``~/.spack/packages.yaml``. For example, to use
an OpenMPI installed in /opt/local, one would use:
.. code-block:: yaml
@@ -824,8 +853,8 @@ appeal to the system's package manager can fix such problems. If not,
the solution is have Spack install the required packages, and then
have Spack use them.
-For example, if `curl` doesn't work, one could use the following steps
-to provide Spack a working `curl`:
+For example, if ``curl`` doesn't work, one could use the following steps
+to provide Spack a working ``curl``:
.. code-block:: console
@@ -860,7 +889,7 @@ source code, and to load generated environment modules: ``curl``,
As long as the user's environment is set up to successfully run these
programs from outside of Spack, they should work inside of Spack as
-well. They can generally be activated as in the `curl` example above;
+well. They can generally be activated as in the ``curl`` example above;
or some systems might already have an appropriate hand-built
environment module that may be loaded. Either way works.
@@ -905,6 +934,7 @@ your Linux distribution does not have Environment Modules, you can get it
with Spack:
#. Consider using system tcl (as long as your system has Tcl version 8.0 or later):
+
#) Identify its location using ``which tclsh``
#) Identify its version using ``echo 'puts $tcl_version;exit 0' | tclsh``
#) Add to ``~/.spack/packages.yaml`` and modify as appropriate:
diff --git a/lib/spack/spack/compilers/nag.py b/lib/spack/spack/compilers/nag.py
index 7beb0efdf5..5ba235adbb 100644
--- a/lib/spack/spack/compilers/nag.py
+++ b/lib/spack/spack/compilers/nag.py
@@ -61,11 +61,11 @@ class Nag(Compiler):
# options with '-Wl,-Wl,,'
@property
def f77_rpath_arg(self):
- return '-Wl,-Wl,,-rpath,'
+ return '-Wl,-Wl,,-rpath,,'
@property
def fc_rpath_arg(self):
- return '-Wl,-Wl,,-rpath,'
+ return '-Wl,-Wl,,-rpath,,'
@classmethod
def default_version(self, comp):