Package: libev-dev Source: libev Version: 1:3.9-1 Architecture: amd64 Maintainer: Robert S. Edmonds Installed-Size: 218 Depends: libev3 (= 1:3.9-1) Filename: ./amd64/libev-dev_3.9-1_amd64.deb Size: 106600 MD5sum: 7246c80c6032b8a5a8b1837f9eef4467 SHA1: 680f57c975ea51060e5c4bce63482d1bfb0112f2 SHA256: 2a4fc911b9b73d6c4d6e84b429fa909ca9b1e2cac5d38286e84f3687612cbf18 Section: libdevel Priority: extra Homepage: http://libev.schmorp.de/ Description: static library, header files, and docs for libev Static library, header files, and documentation for libev. . libev provides a full-featured and high-performance event loop that is loosely modelled after libevent. It includes relative timers, absolute timers with customized rescheduling, synchronous signals, process status change events, event watchers dealing with the event loop itself, file watchers, and even limited support for fork events. It uses a priority queue to manage timers and uses arrays as fundamental data structure. It has no artificial limitations on the number of watchers waiting for the same event. . libev supports select, poll, epoll, kqueue, and inotify. Package: libev-libevent-dev Source: libev Version: 1:3.9-1 Architecture: all Maintainer: Robert S. Edmonds Installed-Size: 37 Depends: libev3 (>= 1:3.9-1), libev-dev Conflicts: libevent-dev Filename: ./all/libev-libevent-dev_3.9-1_all.deb Size: 4918 MD5sum: 2b76b78d4a8feeb1cae9343ee6a79397 SHA1: c2fec7522940024fce547960295e79bfa6576f52 SHA256: 1ebeab2374a4b2c9a3e72ab572ec493aee380760115e7f1664a87c89c1815dfc Section: libdevel Priority: extra Homepage: http://libev.schmorp.de/ Description: libevent event loop compatibility wrapper for libev Compatibility wrapper "event.h" to enable programs which use the libevent event loop to link against libev. . libev provides a full-featured and high-performance event loop that is loosely modelled after libevent. It includes relative timers, absolute timers with customized rescheduling, synchronous signals, process status change events, event watchers dealing with the event loop itself, file watchers, and even limited support for fork events. It uses a priority queue to manage timers and uses arrays as fundamental data structure. It has no artificial limitations on the number of watchers waiting for the same event. . libev supports select, poll, epoll, kqueue, and inotify. Package: libev3 Source: libev Version: 1:3.9-1 Architecture: amd64 Maintainer: Robert S. Edmonds Installed-Size: 84 Depends: libc6 (>= 2.14) Filename: ./amd64/libev3_3.9-1_amd64.deb Size: 28386 MD5sum: aac98c75aa5991de1f0d9642dcb9978f SHA1: 9997a72232cb99c19f7e9cbe720d05cc6d5207f0 SHA256: b25c9866dfe529ce2cd64f4258370a448d5f3af002b554ee70839fe911ad93c0 Section: libs Priority: extra Homepage: http://libev.schmorp.de/ Description: high-performance event loop library modelled after libevent libev provides a full-featured and high-performance event loop that is loosely modelled after libevent. It includes relative timers, absolute timers with customized rescheduling, synchronous signals, process status change events, event watchers dealing with the event loop itself, file watchers, and even limited support for fork events. It uses a priority queue to manage timers and uses arrays as fundamental data structure. It has no artificial limitations on the number of watchers waiting for the same event. . libev supports select, poll, epoll, kqueue, and inotify. Package: rlwrap Version: 0.37-1 Architecture: amd64 Maintainer: Francois Marier Installed-Size: 221 Depends: libc6 (>= 2.15), libreadline6 (>= 6.0), libtinfo5 Provides: readline-editor Filename: ./amd64/rlwrap_0.37-1_amd64.deb Size: 82312 MD5sum: cf8f41cfdb27dfd0134b888104b8bc79 SHA1: 975575bc8e5334fdbe6d2f208103e29300f53b66 SHA256: 76d6b1031960d283d410c1559d3614b003f6921cdb283e845e7ab233314e7f40 Section: utils Priority: optional Homepage: http://utopia.knoware.nl/~hlub/uck/rlwrap/ Description: readline feature command line wrapper This package provides a small utility that uses the GNU readline library to allow the editing of keyboard input for any other command. Input history is remembered across invocations, separately for each command; history completion and search work as in bash and completion word lists can be specified on the command line.