and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains meta-port.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains YACS module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains Post-pro (VISU) module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains SMESH module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains SIERPINSKY module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains RANDOMIZER module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains MULTIPR module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains MED module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains LIGHT module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains KERNEL module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains GUI module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
and Post-Processing for numerical simulation.
+Supports interoperability between CAD modeling and
computation software (CAD-CAE link)
+Makes easier the integration of new components on heterogeneous systems
for numerical computation
+Sets the priority to multi-physics coupling between computation software
+Provides a generic user interface, user-friendly and efficient,
which helps to reduce the costs and delays of carrying out the studies
+Reduces training time to the specific time for learning the software solution
which has been based on this platform
+All functionalities are accessible through the programmatic
integrated Python console
This package contains GEOM module.
WWW: http://www.salome-platform.org
- Stas Timokhin
devel@stasyan.com
PR: ports/143469
Submitted by: Stas Timokhin <devel at stasyan.com>
Applied several patches from this website:
http://newton.ex.ac.uk/teaching/CDHW/Electronics2/userguide/secD.html
specifically fixes for:
- Where command causes crashes
- Recognition of scale factors in arbitrary source
- Current Controlled Switch in subckt, parsing error
- Noise analysis bug
- Save segmentation faults
- BSIM1 model xpart parameter random
- Tran analysis default TSTEP
PR: ports/143727
Submitted by: "Pedro F. Giffuni" <giffunip@tutopia.com>
- Remove an unnecessary patch[*].
- Use build.sh to install binaries and reduce diff between Makefile
for FreeBSD and for Linux in the distribution.
Pointed out by: till plewe[*]
e-mail addresses from the pkg-descr file that could reasonably
be mistaken for maintainer contact information in order to avoid
confusion on the part of users looking for support. As a pleasant
side effect this also avoids confusion and/or frustration for people
who are no longer maintaining those ports.
release can be found at http://library.gnome.org/misc/release-notes/2.28/ .
Officially, this is mostly a polishing release in preparation for GNOME 3.0
due in about a year.
On the FreeBSD front, though, a lot went into this release. Major thanks
goes to kwm and avl who did a lot of the porting work for this release.
In particular, kwm brought in Evolution MAPI support for better Microsoft
Exchange integration. Avl made sure that the new gobject introspection
repository ports were nicely compartmentalized so that large dependencies
aren't brought in wholesale.
But, every GNOME team member (ahze, avl, bland, kwm, mezz, and myself)
contributed to this release.
Other major improvements include an updated HAL with better volume
probing code, ufsid integration, and support for volume names containing
spaces (big thanks to J.R. Oldroyd); a new WebKit; updated AbiWord;
an updated Gimp; and a preview of the new GNOME Shell project (thanks to
Pawel Worach).
The FreeBSD GNOME Team would like to that the following additional
contributors to this release whose patches and testing really helped
make it a success:
Andrius Morkunas
Dominique Goncalves
Eric L. Chen
J.R. Oldroyd
Joseph S. Atkinson
Li
Pawel Worach
Romain Tartière
Thomas Vogt
Yasuda Keisuke
Rui Paulo
Martin Wilke
(and an extra shout out to miwi and pav for pointyhat runs)
We would like to send this release out to Alexander Loginov (avl) in
hopes that he feels better soon.
PR: 136676
136967
138872 (obsolete with new epiphany-webkit)
139160
134737
139941
140097
140838
140929
-Update libtool and libltdl to 2.2.6a.
-Remove devel/libtool15 and devel/libltdl15.
-Fix ports build with libtool22/libltdl22.
-Bump ports that depend on libltdl22 due to shared library version change.
-Explain what to do update in the UPDATING.
It has been tested with GNOME2, XFCE4, KDE3, KDE4 and other many wm/desktop
and applications in the runtime.
With help: marcus and kwm
Pointyhat-exp: a few times by pav
Tested by: pgollucci, "Romain Tartière" <romain@blogreen.org>, and
a few MarcusCom CVS users. Also, I might have missed a few.
Repocopy by: marcus
Approved by: portmgr
- Split boost port to separate components, with boost-all metaport
PR: ports/137054
Submitted by: Alexander Churanov <churanov.port.maintainer@gmail.com> (maintainer)
- pkg-message --> files/pkg-message.in; [2]
- don't hardcode DOCSDIR to default in it
- display it only when NOPORTDOCS it's not defined
- rework PORTDOCS installation a little [3]
- bump PORTREVISION [3]
Submitted by: Sahil Tandon [1][3], itetcu@ [2]
Reported by: QATty [1]
Approved by: maintainer
language. It includes:
* Verilog::Getopt which parses command line options similar to C++ and VCS.
* Verilog::Language which knows the language keywords and parses numbers.
* Verilog::Netlist which builds netlists out of Verilog files. This allows
easy scripts to determine things such as the hierarchy of modules.
* Verilog::Parser invokes callbacks for language tokens.
* Verilog::Preproc preprocesses the language, and allows reading
post-processed files right from Perl without temporary files.
* vpassert inserts PLIish warnings and assertions for any simulator.
* vppreproc preprocesses the complete Verilog 2001 and SystemVerilog language.
* vrename renames and cross-references Verilog symbols. Vrename creates Verilog
cross references and makes it easy to rename signal and module names across
multiple files. Vrename uses a simple and efficient three step process.
First, you run vrename to create a list of signals in the design. You then
edit this list, changing as many symbols as you wish. Vrename is then run a
second time to apply the changes.
WWW: http://www.veripool.org/wiki/verilog-perl
PR: ports/134124
Submitted by: Otacílio de Araújo Ramos Neto <otacilio.neto at ee.ufcg.edu.br>
* cad/qcad itself:
1. Enable parallel build.
This is safe, because the vendor's script supports it
(but only, when one is using distcc).
2. Remove the special handling for Alpha.
I guess, this is a historical wart --
the current version of qcad compiles on my amd64 with
`-Wall -W' without any warnings. If Alpha bites again,
the wart can be put back until someone tracks the bug down.
* cad/qcad-partslib:
1. Fetch the .tar.gz, rather than .zip variant of the distribution.
This new file is more than twice smaller.
2. Remove build-dependency on qcad -- this is useless for a pure-data port
and only complicates package building and installation
(a PORTREVISION bump in qcad itself, for example,
will necessitate rebuilding partslib without any good reason).
3. Don't create an intermediate extraction under ${WRKSRC}
for the sole purpose of creating PLIST -- extract from ${DISTFILE} into
${DATADIR} directly and use tar's output to create PLIST on the fly.
This saves a ton of I/O and diskspace during packaging.
Submitted by: Mikhail T. <mi+thun [at] aldan.algebra.com>
- Minor bug fixes in RS274-X output.
- Bug fixes in postscript output
- DRC checks for annular ring on pads only uses the mininum annular
ring drc setting instead of also checking minimum copper width.
- Fix postscript output for zero length lines.
- Improve the 'save before closing' dialogs.
- Fixed bugs where objects attached to the cursor vanish sometimes.
- Allow outline layers to have only arcs.
- Added "Ben Mode" png output which provides a simulated "photograph"
of the board. Very nice for publications.
- Fix poly clearance around rotated pads.
- Fix the batch HID which had bit rotted a little.
- Display net names hierarchically.
- Various speed improvements in the GTK HID.
- Various speed improvements in the autorouter.
- Minor improvements to the windows port.
- Other various bug fixes.
both current (fc4) and future linux (f8) distributions at one
ports tree.
The patch contains full changes to ports/Mk files and all ports involved.
But only infrastructure is changed. The resulting packages are the same as
before. Hence no need to bump PORTREVISIONs.
The idea was taken from bsd.gnome.mk and others.
More than 130 ports are switched to follow a new linux infrastructure
introduced by changes to bsd.port.mk, bsd.linux-rpm.mk and a new
bsd.linux-apps.mk.
Thanks for all who was involved and helped me with this work.
And help from Alexander Leidinger was incredible.
Other changes are coming. Stay tuned!
PR: ports/132510
Submitted by: bsam (me)
Exp-run by: portmgr (pav)
- Use proper shebang line in perl and python scripts [1].
- Define INSTALLS_ICONS and USE_GETTEXT where appropriate.
- Implement WITHOUT_NLS knob.
Reported by: Nick Withers <nick@nickwithers.com> [1]
- Bump PORTREVISION for all ports depending on libglut since the shlib
version number went from 4 to 3.
- Bump PORTREVISION for all ports depending on libXaw as libXaw.so.8 isn't
installed anymore.
- Couple of ports fixes (mostly missing xorg components added to USE_XORG).
Note: this adds two integrated mesh partitionners, Metis and Chaco;
don't rely to the external ports to avoid conflicts with math/metis-edf
(e.g. when installing Code_aster).
Full changelog at <http://www.geuz.org/gmsh/doc/VERSIONS.txt>.
* Editing capabilities. "klayout" in it's basic form still
operates as pure viewer. However, a mode is available that
enables editing capabilities. See Editor mode quickstart manual
for a more detailed description
* Some RBA extensions: i.e. conversion from "double" type
polygons to "integer" type ones.
* A default layer table can be configured in the "Application"
tab of the setup dialog. This table will be loaded whenever a
layout is opened or created.
* A installer for Windows is provided now.
* Properties are supported on instances now as well.
* Code is compatible with gcc 4.3.0 now.
* Enhanced compatibility with SunStudio 11 compiler (in
particular in RBA).
* Various bug fixes (i.e. in GDS reader and OASIS writer).
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)
Digital Signal Processing algorithms for audio signals. The input can either
be taken from the sound card, or be a locally generated sine wave, white noise
or impulse signal. The output is fed to the sound card, as well as to a virtual
oscilloscope and spectrum analyzer.
