Specifically, newer autoconf (> 2.13) has different semantic of the
configure target. In short, one should use --build=CONFIGURE_TARGET
instead of CONFIGURE_TARGET directly. Otherwise, you will get a warning
and the old semantic may be removed in later autoconf releases.
To workaround this issue, many ports hack the CONFIGURE_TARGET variable
so that it contains the ``--build='' prefix.
To solve this issue, under the fact that some ports still have
configure script generated by the old autoconf, we use runtime detection
in the do-configure target so that the proper argument can be used.
Changes to Mk/*:
- Add runtime detection magic in bsd.port.mk
- Remove CONFIGURE_TARGET hack in various bsd.*.mk
- USE_GNOME=gnometarget is now an no-op
Changes to individual ports, other than removing the CONFIGURE_TARGET hack:
= pkg-plist changed (due to the ugly CONFIGURE_TARGET prefix in * executables)
- comms/gnuradio
- science/abinit
- science/elmer-fem
- science/elmer-matc
- science/elmer-meshgen2d
- science/elmerfront
- science/elmerpost
= use x86_64 as ARCH
- devel/g-wrap
= other changes
- print/magicfilter
GNU_CONFIGURE -> HAS_CONFIGURE since it's not generated by autoconf
Total # of ports modified: 1,027
Total # of ports affected: ~7,000 (set GNU_CONFIGURE to yes)
PR: 126524 (obsoletes 52917)
Submitted by: rafan
Tested on: two pointyhat 7-amd64 exp runs (by pav)
Approved by: portmgr (pav)
allow OPTIONS to be able to influence dependencies. This is still
experimental [1]
* Teach bsd.gcc.mk about gfortran [2]
* Remove the outdated emulators/linux_base; the new default has been
linux_base-fc4. This will allow the outdated port to be removed [3]
* Add USE_FIREBIRD macros to bsd.database.mk [4]
PR: 93687 [1], 93690 [2], 103184 [3], 103357 [4]
Submitted by: shaun [1], Pedro F. Giffuni <giffunip at asme to org> [2],
gerald [2], thierry [2], vd [3], skv [4]
ElmerSolver is thus an independent module that processes the computational
mesh and the model input file containing references to the selected
equations and model parameters. ElmerSolver makes the equations into a
discrete form, handles coupled systems, non-linearities and
time-dependences, and provides output data for visualization.
Submitted by: Pedro F. Giffuni <giffunip@asme.org>
