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  1. /*

  2.  * This is the main page of the JACK reference manual, built using

  3.  * doxygen.

  4.  */

  5. 

  6. /**

  7. @mainpage JACK Audio Connection Kit

  8. 

  9. @section intro Introduction

  10. 

  11. JACK is a low-latency audio server, written for any operating system

  12. that is reasonably POSIX compliant. It currently exists for Linux, OS

  13. X, Solaris, FreeBSD and Windows. It can connect several client

  14. applications to an audio device, and allow them to share audio with

  15. each other.  Clients can run as separate processes like normal

  16. applications, or within the JACK server as "plugins".

  17. 

  18. JACK was designed from the ground up for professional audio work, and

  19. its design focuses on two key areas: synchronous execution of all

  20. clients, and low latency operation.

  21. 

  22. @see <http://jackaudio.org>

  23. 

  24. @section jack_overview JACK Overview

  25. 

  26. Traditionally it has been hard if not impossible to write audio

  27. applications that can share data with each other. In addition,

  28. configuring and managing audio interface hardware has often been one

  29. of the most complex aspect of writing audio software.

  30. 

  31. JACK changes all this by providing an API that does several things:

  32. 

  33.     1. provides a high level abstraction for programmers that

  34.        removes the audio interface hardware from the picture and

  35.        allows them to concentrate on the core functionality of

  36.        their software.

  37. 

  38.     2. allows applications to send and receive audio data to/from

  39.        each other as well as the audio interface. There is no

  40.        difference in how an application sends or receives

  41.        data regardless of whether it comes from/goes to another application 

  42.        or an audio interface.

  43. 

  44. For programmers with experience of several other audio APIs such as

  45. PortAudio, Apple's CoreAudio, Steinberg's VST and ASIO as well as many

  46. others, JACK presents a familiar model: your program provides a

  47. "callback" function that will be executed at the right time. Your

  48. callback can send and receive data as well as do other signal

  49. processing tasks. You are not responsible for managing audio

  50. interfaces or threading, and there is no "format negotiation": all

  51. audio data within JACK is represented as 32 bit floating point values.

  52. 

  53. For those with experiences rooted in the Unix world, JACK presents a

  54. somewhat unfamiliar API. Most Unix APIs are based on the read/write

  55. model spawned by the "everything is a file" abstraction that Unix is

  56. rightly famous for. The problem with this design is that it fails to

  57. take the realtime nature of audio interfaces into account, or more

  58. precisely, it fails to force application developers to pay sufficient

  59. attention to this aspect of their task. In addition, it becomes rather

  60. difficult to facilitate inter-application audio routing when different

  61. programs are not all running synchronously.

  62. 

  63. Using JACK within your program is very simple, and typically consists

  64. of just:

  65. 

  66.    - calling @ref jack_client_open() to connect to the JACK server.

  67.    - registering "ports" to enable data to be moved to and from

  68.        your application.

  69.    - registering a "process callback" which will be called at the

  70.        right time by the JACK server.

  71.    - telling JACK that your application is ready to start processing

  72.        data.

  73. 

  74. There is a lot more that you can do with JACK's interfaces, but for

  75. many applications, this is all that is needed.  The @ref

  76. simple_client.c example demonstrates a complete (simple!) JACK

  77. application that just copies the signal arriving at its input port to

  78. its output port.  Similarly, @ref inprocess.c shows how to write an

  79. internal client "plugin" that runs within the JACK server process.

  80. 

  81. @section reference Reference

  82. 

  83. The JACK programming interfaces are described in several header files.

  84. We present them here broken into useful categories to make the API a

  85. little clearer:

  86. 

  87.     - @ref ClientFunctions

  88.     - @ref ClientCallbacks

  89.     - @ref ClientThreads

  90.     - @ref ServerControl

  91.     - @ref PortFunctions

  92.     - @ref PortSearching

  93.     - @ref TimeFunctions

  94.     - @ref TransportControl

  95.     - @ref ErrorOutput

  96.     - @ref NonCallbackAPI

  97.     - @ref MIDIAPI

  98. 

  99. The full API is described in:

  100. 

  101.   - @ref jack.h "<jack/jack.h>" is the main JACK interface.

  102.   - @ref statistics.h "<jack/statistics.h>" provides interfaces for

  103.   monitoring the performance of a running JACK server.

  104.   - @ref intclient.h "<jack/intclient.h>" allows loading and unloading

  105.   JACK internal clients.

  106.   - @ref ringbuffer.h "<jack/ringbuffer.h>" defines a simple API for

  107.   using lock-free ringbuffers.  These are a good way to pass data

  108.   between threads, when streaming realtime data to slower media, like

  109.   audio file playback or recording.

  110.   - @ref transport.h "<jack/transport.h>" defines a simple transport

  111.   control mechanism for starting, stopping and repositioning clients.

  112.   This is described in the @ref transport-design document.

  113.   - @ref types.h "<jack/types.h>" defines the main JACK data types.

  114.   - @ref thread.h "<jack/thread.h>" functions standardize thread

  115.   creation for JACK and its clients.

  116.   - @ref midiport.h "<jack/midiport.h>" functions to handle reading

  117.   and writing of MIDI data to a port

  118. 

  119. In addition, the tools directory provides numerous examples

  120. of simple JACK clients that nevertheless use the API to do something

  121. useful.  It includes

  122. 

  123.   - a metronome.

  124.   - a recording client that can capture any number of channels

  125.       from any JACK sources and store them as an audio file.

  126.   - command line clients to control the transport mechanism,

  127.        change the buffer size and more.      

  128.   - commands to load and unload JACK internal clients.

  129.   - tools for checking the status of a running JACK system.

  130. 

  131. and many more.

  132. 

  133. @section porting Porting

  134. 

  135. JACK is designed to be portable to any system supporting the relevant

  136. POSIX and ANSI C standards.  It currently runs under GNU/Linux, Mac OS

  137. X and Berkeley Unix on several different processor architectures.  If

  138. you want to port JACK to another platform, please read the @ref

  139. porting-guide document.

  140. 

  141. @section license License

  142. 

  143. Copyright (C) 2001-2008 by Paul Davis and others.

  144. 

  145. JACK is free software; you can redistribute it and/or modify it under

  146. the terms of the GNU GPL and LGPL licenses as published by the Free

  147. Software Foundation, <http://www.gnu.org>.  The JACK server uses the

  148. GPL, as noted in the source file headers.  However, the JACK library

  149. is licensed under the LGPL, allowing proprietary programs to link with

  150. it and use JACK services.  You should have received a copy of these

  151. Licenses along with the program; if not, write to the Free Software

  152. Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,

  153. USA.

  154. 

  155. This program is distributed in the hope that it will be useful, but

  156. WITHOUT ANY WARRANTY; without even the implied warranty of

  157. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  158. General Public License for more details.

  159. 

  160. */