Math::Symbolic::Custom::Transformation is an extension to the
Math::Symbolic module. You're assumed to be remotely familiar with that
module throughout the documentation.
This package implements transformations of Math::Symbolic trees using
Math::Symbolic trees. I'll try to explain what this means in the following
paragraphs.
Until now, in order to be able to inspect a Math::Symbolic tree, one had
to use the low-level Math::Symbolic interface like comparing the top
node's term type with a constant (such as T_OPERATOR) and then its
operator type with more constants. This has changed with the release of
Math::Symbolic::Custom::Pattern.
To modify the tree, you had to use equally low-level or even
encapsulation-breaking methods. This is meant to be changed by this
distribution.
A collection of functions to create spatial weights matrix objects
from polygon contiguities, from point patterns by distance and
tesselations, for summarising these objects, and for permitting
their use in spatial data analysis, including regional aggregation
by minimum spanning tree; a collection of tests for spatial
autocorrelation, including global Moran's I, APLE, Geary's C,
Hubert/Mantel general cross product statistic, Empirical Bayes
estimates and Assuno/Reis Index, Getis/Ord G and multicoloured join
count statistics, local Moran's I and Getis/Ord G, saddlepoint
approximations and exact tests for global and local Moran's I; and
functions for estimating spatial simultaneous autoregressive (SAR)
lag and error models, impact measures for lag models, weighted and
unweighted SAR and CAR spatial regression models, semi-parametric
and Moran eigenvector spatial filtering, GM SAR error models, and
generalized spatial two stage least squares models.
KTouch is a program for learning to touch type. It provides you with
text to train on and adjusts to different levels depending on how good
you are. It also displays which key to press next and the correct
finger to use. You learn typing with all fingers, step by step,
without having to look down at the keyboard all the time to find your
keys (which slows you down a lot). It is convenient for all ages and
the perfect typing tutor for schools, universities and individuals.
FEATURES
- Support for many different training lectures.
- Support for many languages including language specific text fonts.
- Comfortable lecture editor.
- Support for different keyboard layouts, with the ability to use
user-defined layouts.
- During training sessions comprehensive statistical informations are
shown to help you analyse your progress
Petri nets are a popular graphical way of modeling concurrent systems such as
communications protocols, multiprocessor computers etc. With Petri nets it is
possible to assess the correctness of systems for example by verifying that
the system cannot deadlock, that there cannot be any buffer overflows etc.
PIPEs main aim is to improve on existing tools available for modeling Petri
Nets. A key design feature is the modular approach adopted for analysis,
enabling new modules to written easily and powerfully, using built-in data
layer methods for standard calculations. Eight analysis modules have been
written (so far) including Invariant Analysis, State-Space Analysis (deadlock,
etc), Simulation Analysis & Classification. PIPE adheres to the latest XML
Petri net standard (PNML). File format for saving and loading Petri-Nets is
also extensible through the use of XSLT, the default being PNML.
The purpose of this academic open-source project is to develop a video
encoder for the emerging High Efficiency Video Coding (HEVC) standard.
This Kvazaar HEVC encoder is being developed towards the following goals:
1. Coding efficiency close to HEVC reference encoder (HM)
2. Modular encoder structure to simplify its data flow modeling
3. Efficient support for different parallelization approaches
4. Easy portability to different platforms
5. Optimized encoding speed without sacrificing its coding efficiency,
modularity, or portability
6. Reduced computation and memory resources without sacrificing its
coding efficiency, modularity, or portability
7. Excellent software readability and implementation documentation
Achieving these objectives requires encoder with design decisions that
make this open-source encoder unique:
1. The encoder is developed from the scratch (HM used as a reference)
2. The implementation language is platform-independent C
K9Copy is a small utility which allows copying DVDs.
The DVD video stream is compressed by the program Vamps.
1. Copy without menus:
Here, dvdauthor creates a new structure for the DVD. It is possible to
arbitrarily set the order of the videos.
2. Copy with menus:
Because dvdauthor can't copy the original menus, K9Copy recreates the original
DVD structure. The menus as well as IFO files are modified to point to the
compressed MPEG2 stream.
Creating personalized menus was not brought back with version 1.0.0
Features
* The video stream is compressed to make the DVD fit on 4.7 Gb recordable DVD
* DVD Burning
* Creation of ISO images
* Choosing which audio and subtitle tracks are copied
* Title preview (video only)
* The ability to preserve the original menus
The Kaa Media Repository is a set of python modules related to
media.
Kaa modules are based on parts from Freevo and modules created for
MeBox. Kaa exists to encourage code sharing between these projects,
and to serve as an umbrella for several previously disparate
media-related modules in order to make them available from one
(unique) namespace.
Kaa provides a base module that implements the common features
needed for application development, such as mainloop management,
timers, signals, callbacks, file descriptor monitors, etc. Kaa's
other modules provide specific media-related functionality, such
as retrieving metadata on arbitrary media files (kaa.metadata,
previously called mmpython), Python wrappers for Imlib2, Xine, and
Evas, and many other high level APIs for easily creating applications
that deal with video and audio.
Kaa is named after the python character in the Jungle Book by Rudyard
Kipling.
The Kaa Media Repository is a set of python modules related to
media.
Kaa modules are based on parts from Freevo and modules created for
MeBox. Kaa exists to encourage code sharing between these projects,
and to serve as an umbrella for several previously disparate
media-related modules in order to make them available from one
(unique) namespace.
Kaa provides a base module that implements the common features
needed for application development, such as mainloop management,
timers, signals, callbacks, file descriptor monitors, etc. Kaa's
other modules provide specific media-related functionality, such
as retrieving metadata on arbitrary media files (kaa.metadata,
previously called mmpython), Python wrappers for Imlib2, Xine, and
Evas, and many other high level APIs for easily creating applications
that deal with video and audio.
Kaa is named after the python character in the Jungle Book by Rudyard
Kipling.
The Kaa Media Repository is a set of python modules related to
media.
Kaa modules are based on parts from Freevo and modules created for
MeBox. Kaa exists to encourage code sharing between these projects,
and to serve as an umbrella for several previously disparate
media-related modules in order to make them available from one
(unique) namespace.
Kaa provides a base module that implements the common features
needed for application development, such as mainloop management,
timers, signals, callbacks, file descriptor monitors, etc. Kaa's
other modules provide specific media-related functionality, such
as retrieving metadata on arbitrary media files (kaa.metadata,
previously called mmpython), Python wrappers for Imlib2, Xine, and
Evas, and many other high level APIs for easily creating applications
that deal with video and audio.
Kaa is named after the python character in the Jungle Book by Rudyard
Kipling.
naim is a console client for AOL Instant Messenger (AIM), AOL I Seek You
(ICQ), Internet Relay Chat (IRC), and The lily CMC.
It includes unique features like zero-configuration peer to peer encryption,
automatic message queueing, and incoming message modification (to correct
common spelling mistakes and expand common abbreviations; see /help filter).
It also includes powerful dynamic module support, allowing developers to
modify all major aspects of naim's behavior.
When combined with GNU Screen, naim is great to use as a chat client as
well as an answering machine. Individual users can detach, log out, pack
up and go home, then log back in from anywhere on the Internet to resume
their naim session.