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8 developing libraries, 1 designing libraries for the cp4000 platform – HP XC System 4.x Software User Manual

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To compile and link a C application using the mpicc command:

$ mpicc -o mycode hello.c

To compile and link a Fortran application using the mpif90 command:

$ mpif90 -o mycode hello.f

In the above examples, the HP-MPI commands invoke compiler utilities which call the C and
Fortran compilers with appropriate libraries and search paths specified to build the parallel
application called hello. The -o specifies that the resulting program is called mycode.

4.8 Developing Libraries

This section discusses developing shared and archive libraries for HP XC applications. Building
a library generally consists of two phases:

Compiling sources to objects

Assembling the objects into a library
— Using the ar archive tool for archive (.a) libraries
— Using the linker (possibly indirectly by means of a compiler) for shared (.so) libraries.

For sufficiently small shared objects, it is often possible to combine the two steps.

A common technique is to build the archive library first, and then build the shared library from
the archive library (using the linker's -whole-archive switch).

For libraries that do not use HP-MPI, it is recommended that the sources be compiled with the
standard compilers (such as gcc), just as they would be on other UNIX-like platforms.

For libraries that do use HP-MPI, it is possible to use the HP-MPI compiler utilities (such as
mpicc

) to compile the sources to objects. For example:

$ mpicc -c -g foo.c

To assemble an archive library, use the ar archive tool as you would on other UNIX-like platforms.
To assemble a shared library, use the linker (possibly indirectly by means of a compiler) as you
would on other UNIX-like platforms.

Once the library is built, it can be used to build applications, just as other libraries are used, for
both serial applications (with the standard compilers) and parallel applications (with the HP-MPI
compiler utilities).

Note that for shared libraries it is necessary to use LD_LIBRARY_PATH to include the directory
containing the shared library, just as you would on other UNIX-like platforms.

4.8.1 Designing Libraries for the CP4000 Platform

This section discusses the issues surrounding the design of libraries for CP4000 platform on the
HP XC system.

A user designing a library for use on an HP XC CP4000 platform can supply a 32-bit library
and/or a 64-bit library. HP recommends both, to provide flexibility and to make it easy to get
the 64-bit advantages locally, but be able to take the 32-bit variant to an x86-class machine or run
a 32-bit variant imported from an x86-class machine.

It is the library designer's responsibility to make sure 32-bit and 64-bit object files do not collide
during the build process. This can be done by "cleaning" object files from the directories between
builds, or (as is more common) maintaining separate directories for the different types of objects.
Separate directories also makes it easy to maintain production versions distinct from debuggable
versions.

Different compilers have different ways to select 32-bit or 64-bit compilations and links. Consult
the documentation for the compiler for this information.

For released libraries, dynamic and archive, the usual custom is to have a ../lib directory that
contains the libraries. This, by itself, will work if the 32-bit and 64-bit libraries have different

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Developing Applications