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SMOKE stands for "Scripting Meta Object Kompiler Engine". SMOKE is language-independent enough for other bindings (e.g. to other scripting languages) to be based on it.

SMOKE stands for "Scripting Meta Object Kompiler Engine". SMOKE is language-independent enough for other bindings (e.g. to other scripting languages) to be based on it.

SMOKE stands for "Scripting Meta Object Kompiler Engine". SMOKE is language-independent enough for other bindings (e.g. to other scripting languages) to be based on it.

Error - Error/exception handling in an OO-ish way This module, which provides support for throwing and catching Error (i.e. exception) objects.

POE::Component::Client::SMTP can be used to send asynchronous e-mail messages while your POE program still does something else in the meantime.

realsync daemon with rsync and python: - config support /usr/local/etc/realsync.cfg - e-mail stats support - threads support - threads wait support

http://www.linuxtv.org/vdrwiki/index.php/Remote-plugin This plugin extends the remote control capabilities of vdr. The following remote control devices are supported: (a) Linux input device driver ('/dev/input/eventX', X=0,1,2,...) (currently not supported on FreeBSD) (b) keyboard (tty driver): /dev/console, /dev/ttyX (c) TCP connection (telnet) (d) LIRC (e) some(?) FreeBSD uhid(4) devices (experimental support added by this port) To use, add something like this to vdr_flags: '-Premote -h /dev/uhid0', (re)start vdr, then the osd should ask you to configure the remote by pressing the buttons you want to assign. Note: If your remote is detected as a keyboard you'll have to tell ukbd(4) to ignore it first by doing (as root) something like: usbconfig add_dev_quirk_vplh 0x1241 0xe000 0 0xffff UQ_KBD_IGNORE (and possibly unplug it for a moment or reset it via usbconfig, 0x1241 there is the vendor id, 0xe000 the product id of the device, you can get yours by doing usbconfig -d 1.2 dump_device_desc and looking for idVendor and idProduct, -d 1.2 there corresponds to ugen1.2 listed by usbconfig w/o args.) You can check with: usbconfig show_ifdrv if the device is then listed as ugen...: uhid... you're good to go. 2nd note: If vdr cannot open your uhid device check it is not claimed by xorg: fstat |grep uhid If it is you may need an xorg.conf(5) with manually defined InputDevice sections for mouse and keyboard and Option "AutoAddDevices" "False" in the ServerFlags section. And if for some reason you want to reassign the buttons on the remote you can stop vdr and do: touch /usr/local/etc/vdr/channels.conf and/or remove uhid entries from /usr/local/etc/vdr/remote.conf . When you then start vdr again it should ask to configure the remote again.

LinKNX is a backend for controlling a KNX/EIB home and building automation system. It connects to eibd which is part of the BCU SDK and keeps state of KNX devices such as lamps, window blinds, heating and so on. Furthermore it provides a powerful, rule-based event after treatment, e.g. for switching other KNX devices, sending e-mail or SMS or executing a shell command. You can configure and control the LinKNX daemon using an XML-style protocol via TCP network socket or Unix domain socket.

ndiff is a utility for comparing putatively similar files, ignoring small numeric differences. The utility is written by Nelson H. F. Beebe and covered by the GNU General Public License (GPL), version 2. It may be built with arbitrary precision support (more powerful) or using built-in floating point precision, see Makefile. Assessing the consistency of a numerical program run in multiple environments (operating systems, architectures, or compilers) can be a difficult task for a human, as small differences in numerical output values are expected. File differencing utilites, such as diff(1), will generally produce voluminous output, often longer than the original files. ndiff solves this problem. Taking two text files expected to be identical, or at least numerically similar, it allows to specify absolute and/or relative error tolerances for differences between numerical values in the two files, and then reports only the lines with values exceeding those tolerances. It also tells by how much they differ. A simple example: % ndiff --relative-error 1.0e-3 test019.txt.1 test019.txt.2 ### Maximum relative error in matching lines = 8.64e-51 at line 129 field 4

GOBLIN is a C++ class library focussed on graph optimization and network programming problems. It deals with all of the standard graph optimization problems discussed by textbooks and in courses on combinatorial optimization. Today, GOBLIN provides strongly polynomial algorithms for the following graph optimization problems: - Shortest paths in graphs and digraphs with negative lengths. - Negative cycles and minimum mean cycles. - Strong and 2-connected components. - Minimum spanning trees, arborescences and 1-trees. - Maximum st-flows, feasible circulations and b-flows. - Min-cost st-flows, b-flows and circulations. - Assignment problems of any kind. - 1-matchings, b-matchings, capacitated b-matchings, f-factors and degree-constrained subgraphs. - Directed and undirected Chinese postman problems, T-joins. The library also includes methods for NP-hard problems, namely TSP, ATSP, stable sets and graph colouring.