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GBuffy will poll multiple mailboxes for new mail. It will list the number of new messages in each mailbox you configure. It will also highlight the mailboxes which have new mail. Pressing the left mouse button on a mailbox with new mail will display the Sender and Subject of each new message. Additionally, GBuffy will display the X-Face header for messages which have them. Pressing the middle mouse button on a mailbox will launch the configured command, generally a command to read the mailbox with your favorite mailreader. Pressing the right mouse button will bring up the configure menu. GBuffy is currently capable of watching MBOX, MMDF, Maildir and MH Folders. This version also supports IMAP4rev1 and NNTP with XOVER. Support for an external program for notification is planned.

IM (Internet Message) provides a series of user interface commands (imput, imget, imls, ...) and backend Perl5 modules to integrate E-mail and NetNews user interface. They are designed to be used both from Mew version 1.x and on command line. The folder style of IM is exactly the same as that of MH. So, you can replace MH with this package without any migration works. Moreover, you are able to operate your messages both by IM and MH with consistent manner. IM is copyrighted by IM developing team. You can redistribute it and/or modify it under the modified BSD license. Although you installed IM successfully, yet you must be initialized on your home directory at once. Execute imsetup command with your account after im installed. % imsetup

A patch to stock qmail-1.03 to get all user account information from an LDAP database. It primary target are POP toaster with huge numbers of users (from thousands up to millions). Some of it's greatest features: * Users and virtual domains in an LDAP database * No local accounts needed * Perfect for ISP's to build POP toasters * Native mail server clustering * Supports size quotas on user maildirs * Automatic creation of home- and maildir's * Handles replies with new qmail-reply * Extensive logging in qmail-smtpd and qmail-pop3d * Supports tarpitting (based on a patch by Chris Johnson) * Supports OpenLDAP 2.x, Novell NDS * Includes extensive Antispam-Features * Supports automatic maildir creation when the first mail arrives * Support for SHA, SSHA, MD5, SMD5, MD4 and RIPE-MD160 * Support for NS-MTA-MD5 encrypted passwords used by Netscape Mailserver * It also supports the password format used by Software.com's Post.Office * Support TLS (SSL) encrytion of SMTP mail transport (by Frederik Vermeulen)

xpbiff: fancy biff program under X11 environment, supporting Japanese MIME extensions This port supports Japanese strings in the From and Subject fields. Please set the LANG enviroment variable to ja_JP.EUC or ja_JP.SJIS by doing: setenv LANG ja_JP.EUC or setenv LANG ja_JP.SJIS There is experimental support for Sun audio. This port also supports XPM bitmap files. known problem: (1) HANKAKU-KANA with ja_JP.EUC Xpbiff dumps core, because code conversion routines jis2euc() assumes "the conversion does not makes the string longer". But when converting so-called 'hankaku-kana', this assumption breaks. This problem is only with ja_JP.EUC. If you use with ja_JP.SJIS, this problem is not occure. Thank you.

the Auto Payment Calculator V1.0 Release Copyright (C) 1997 Eric A. Griff Auto Payment Calculator is a simple, xforms based, application for use under the X-windows system, that calculates auto loan payments. It is pretty straight forward. You enter the Principal (Amount), Term (in months), and Rate, and then with either [RETURN] (or [enter] or whatever your keyboard equivelent is), (ALT-C), or clicking the calculate button; you will have the payment in months, as well as number of weeks, and weekly payment. You may also [TAB] through the Amount, Term, and Rate, as well as hold down ALT and press the character in its Name that is underlined to go do that function. As long as all three are filled in, you may hit [ENTER] to Calculate right there. This makes it easy to cycle quickly through numerous terms, amounts, and rates.

Fityk is a program for nonlinear fitting of analytical functions (especially peak-shaped) to data (usually experimental data). There are also people using it only to display data or to remove baseline from data. It is reported to be used in crystallography, chromatography, photoluminescence, infrared and Raman spectroscopy and other fields. Fityk knows about common peak-shaped functions (Gaussian, Lorentzian, Voigt, Pearson VII, bifurcated Gaussian, EMG, Doniach-Sunjic, etc.) and polynomials. It also supports user-defined functions. Fityk offers intuitive graphical interface (and also command line interface), variouse optimization methods (standard Marquardt least-square algorithm, Genetic Algorithms, Nelder-Mead simplex), equality constraints, modelling error of x coordinate of points (eg. zero-shift of instrument), handling series of datasets, automation of common tasks with scripts, and more.

PDL (``Perl Data Language'') gives standard perl the ability to COMPACTLY store and SPEEDILY manipulate the large N-dimensional data arrays which are the bread and butter of scientific computing. The idea is to turn perl in to a free, array-oriented, numerical language in the same sense as commerical packages like IDL and MatLab. One can write simple perl expressions to manipulate entire numerical arrays all at once. For example, using PDL the perl variable $a can hold a 1024x1024 floating point image, it only takes 4Mb of memory to store it and expressions like $a=sqrt($a)+2 would manipulate the whole image in a few seconds. A simple interactive shell (perldl) is provided for command line use together with a module (PDL) for use in perl scripts.

Gri is a language for scientific graphics applications. By 'language' I mean that it is a command-driven application, as opposed to a click/point application. It is analogous to latex or tex, and shares the property that extensive power is the reward for tolerating a modest learning curve. Gri output is in industry-standard PostScript, suitable for incorporation in documents prepared by various text processors. Gri can make x-y graphs, contour-graphs, and image graphs. In addition to high-level capabilities, it has enough low-level capabilities to allow users to achieve a high degree of customization. Precise control is extended to all aspects of drawing, including line-widths, colors, and fonts. Text includes a subset of the tex language, so that it is easy to incorporate Greek letters and mathematical symbols in labels.

Ipopt (Interior Point OPTimizer, pronounced eye-pea-Opt) is a software package for large-scale nonlinear optimization. Ipopt is written in C++ and is released as open source code under the Eclipse Public License (EPL). It is available from the COIN-OR initiative. The code has been written by Carl Laird and Andreas Wchter, who is the COIN project leader for Ipopt. The Ipopt distribution can be used to generate a library that can be linked to one's own C++, C, or Fortran code, as well as a solver executable for the AMPL modeling environment. The package includes interfaces to CUTEr optimization testing environment, as well as the MATLAB and R programming environments. IPOPT can be used on Linux/UNIX, Mac OS X and Windows platforms. An excellent reference for this library can be found in: Wachter and L. T. Biegler, On the Implementation of a Primal-Dual Interior Point Filter Line Search Algorithm for Large-Scale Nonlinear Programming, Mathematical Programming 106(1), pp. 25-57, 2006

PLplot is a library of C functions that are useful for making scientific plots from a program written in C, C++, or Fortran. The PLplot library can be used to create standard x-y plots, semilog plots, log-log plots, contour plots, 3D plots, mesh plots, bar charts and pie charts. Multiple graphs (of the same or different sizes) may be placed on a single page with multiple lines in each graph. Different line styles, widths and colors are supported. A virtually infinite number of distinct area fill patterns may be used. There are almost 1000 characters in the extended character set. This includes four different fonts, the Greek alphabet and a host of mathematical, musical, and other symbols. The fonts can be scaled to any desired size. A variety of output devices are supported and new devices can be easily added by writing a small number of device dependent routines.