Historique: jack_tools
Aperçu de cette version: 2
Dans certaines distributions, il existe un paquet nommé Jack-tools.
Site web officiel : http://www.alphalink.com.au/~rd .
Développeur : Rohan Drape
Ce paquet contient un set de petits utilitaires écrit pour l'API basse latence Jack.
Ces outils sont :
jack.plumbing
jack.plumbing maintains a set of port connection rules and manages these as clients register ports with JACK. Port names are implicitly bounded regular expressions and support sub-expression patterns.
jack.play
jack.play is a light-weight JACK sound file player. It creates as many output ports as there are channels in the input file.
jack.udp
jack.udp is a UDP audio transport mechansim for JACK. The send mode reads signals from a set of JACK input ports and sends UDP packets to the indicated port at the indicated host at a rate determined by the local JACK daemon. The "recv" mode reads incoming packets at the indicated port and writes the incoming data to a set of JACK output ports at a rate that is determined by the local JACK daemon.
jack.ctl
jack.ctl is a JACK session manager. It reads configuration information from a system wide and a user specific configuration file and manages sessions involving the JACK daemon proper and optionally a set of secondary jack daemons.
jack.scope
C'est un petit visualiseur oscilloscopique.
Pour le faire fonctionner, il faut que Jack soit déjà lancer.
Ensuite, on peut lancer, à partir d'une console, jack.scope.
Il apparaîtra alors dans QjackCtl, par exemple, au niveau des entrées (dans la colonne de droite); et un fenêtre s'ouvrira également.
Il suffira alors de lui mettre un flux en entrée pour le voir s'animer.
jack.scope draws either a time domain signal trace or a self correlation trace. Multiple input channels are superimposed, each channel is drawn in a different color. jack.scope accepts OSC packets for interactive control of drawing parameters.
jack.clock
jack.clock publishes the transport state of the local JACK server as OSC packets over a UDP connection. jack.clock allows any OSC enabled application to act as a JACK transport client, receiving sample accurate pulse stream timing data, and monitoring and initiating transport state change.
Site web officiel : http://www.alphalink.com.au/~rd .
Développeur : Rohan Drape
Ce paquet contient un set de petits utilitaires écrit pour l'API basse latence Jack.
Ces outils sont :
jack.plumbing
jack.plumbing maintains a set of port connection rules and manages these as clients register ports with JACK. Port names are implicitly bounded regular expressions and support sub-expression patterns.
jack.play
jack.play is a light-weight JACK sound file player. It creates as many output ports as there are channels in the input file.
jack.udp
jack.udp is a UDP audio transport mechansim for JACK. The send mode reads signals from a set of JACK input ports and sends UDP packets to the indicated port at the indicated host at a rate determined by the local JACK daemon. The "recv" mode reads incoming packets at the indicated port and writes the incoming data to a set of JACK output ports at a rate that is determined by the local JACK daemon.
jack.ctl
jack.ctl is a JACK session manager. It reads configuration information from a system wide and a user specific configuration file and manages sessions involving the JACK daemon proper and optionally a set of secondary jack daemons.
jack.scope
C'est un petit visualiseur oscilloscopique.
Pour le faire fonctionner, il faut que Jack soit déjà lancer.
Ensuite, on peut lancer, à partir d'une console, jack.scope.
Il apparaîtra alors dans QjackCtl, par exemple, au niveau des entrées (dans la colonne de droite); et un fenêtre s'ouvrira également.
Il suffira alors de lui mettre un flux en entrée pour le voir s'animer.
jack.scope draws either a time domain signal trace or a self correlation trace. Multiple input channels are superimposed, each channel is drawn in a different color. jack.scope accepts OSC packets for interactive control of drawing parameters.
jack.clock
jack.clock publishes the transport state of the local JACK server as OSC packets over a UDP connection. jack.clock allows any OSC enabled application to act as a JACK transport client, receiving sample accurate pulse stream timing data, and monitoring and initiating transport state change.
