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|Stable release||6.01 / October 20, 2013|
Csound is a computer programming language for sound, also known as a sound compiler or an audio programming language, or more precisely, an audio DSL. It is called Csound because it is written in C, as opposed to some of its predecessors.
Csound was originally written at MIT by Barry Vercoe, based on his earlier system called Music 11, which in its turn followed the MUSIC-N model initiated by Max Mathews at the Bell Labs. Its development continued throughout the 1990s and 2000s, led by John ffitch at the University of Bath. The first documented version 5 release is version 5.01 on March 18, 2006. Many developers have contributed to it, most notably Istvan Varga, Gabriel Maldonado, Robin Whittle, Richard Karpen, Michael Gogins, Matt Ingalls, Steven Yi, Richard Boulanger, and Victor Lazzarini.
Developed over many years, it currently has nearly 1700 unit generators. One of its greatest strengths is that it is completely modular and extensible by the user. Csound is closely related to the underlying language for the Structured Audio extensions to MPEG-4, SAOL.
Csound takes two specially formatted text files as input. The orchestra describes the nature of the instruments and the score describes notes and other parameters along a timeline. Csound processes the instructions in these files and renders an audio file or real-time audio stream as output.
The orchestra and score files may be unified into a single structured file using markup language tags (a CSD file with filename extension .csd). Here is a very simple example of a unified Csound data file which produces a wave file containing a one second sine wave tone of 1 kHz at a sample rate of 96 kHz:
<CsoundSynthesizer> <CsOptions> csound -W -d -o tone.wav </CsOptions> <CsInstruments> sr = 96000 ; Sample rate. kr = 9600 ; Control signal rate. ksmps = 10 ; Samples per control signal. nchnls = 1 ; Number of output channels. instr 1 a1 oscil p4, p5, 1 ; Oscillator: p4 and p5 are the arguments from the score, 1 is the table number. out a1 ; Output. endin </CsInstruments> <CsScore> f1 0 8192 10 1 ; Table containing a sine wave. Built-in generator 10 produces a sum of sinusoids, here only one. i1 0 1 20000 1000 ; Play one second of one kHz at amplitude 20000. e </CsScore> </CsoundSynthesizer>
As with many other programming languages, writing long programs in Csound can be eased by using an integrated environment for editing, previewing, testing, and debugging. The one now officially supported is QuteCsound, and it has many features, such as automatic code insertion, integrated documentation browser, integrated widgets for graphically controlling parameters in realtime, plus a button for playing the code.
Version 5.01 was released on March 18, 2006 – 20 years after csound's first release. This latest incarnation of the software is currently available in binary and source code for Linux, Microsoft Windows and Mac OS X from the SourceForge Csound project. It is much improved and expanded compared to the original software, effectively made into a software library with an API. A variety of front ends have been developed for it. In addition to the basic C API, there are also Python, Java, Lisp, Tcl and C++ among other bindings, like one from Haskell which allows control of Csound from a purely functional environment.
The use of plug-ins allows additional capabilities without modifications to the Csound code, as there is the possibility to write user-defined opcodes as extensions to the original language. LADSPA, DSSI, and VST plugins are all supported.
Real-time performance through MIDI has been added in the 1990s, a more recent addition is the support of FLTK widgets (graphical interface components with sliders, knobs, etc.) for controlling real-time audio, and integration of custom graphical interfaces written in Python.
Csound 6 has been in development since its features were hashed out at the Csound Conference held in 2011 in Hanover. Csound 6 was released in July 2013. Csound 6 is also available for android. The major new features of Csound 6 include:
- A bison/flex based parser for the Csound language is now standard. It generates an abstract syntax tree that is accessible via the Csound API. The tree can then be compiled to a Csound performance runtime using the API. Therefore, after the tree has been compiled, it can be manipulated by user code before compiling it to a Csound performance runtime. Alternatively, the user could create the entire abstract syntax tree from another language, then compile the tree to a Csound performance runtime.
- There is a new built-in multi-dimensional array type. Arrays can be passed to instruments and opcodes. Arithmetic may be performed directly on arrays.
- There is a new type system that enables user-defined types to be used in the Csound language.
- The orchestra can be re-compiled at any time, or individual instruments can be compiled at any time, during a running performance. This enables true "live coding" in Csound performances.
- The Csound API has been rationalized and simplified.
- Csound can take advantage of any number of CPUs for concurrent processing during performance. This occurs without any changes to Csound code. This produces substantial speedups of most Csound processing. For example, a piece that renders in 100 seconds with 1 core should render in about 50 seconds with 4 cores.
- Csound can compile orchestras and scores directly from strings of text, enabling the use of Csound in environments where writing to the file system is not permitted.
- Score events such as notes can be scheduled to sample accurate times, even if synthesis is processed in blocks of samples.
- All opcodes that return a single value may be used as functions in the orchestra language.
- Audio analysis file formats can be byte-order independent.
- A single score statement can contain multiple string parameters.
- Most oscillator opcodes will use an internal sine function table if the table number is omitted.
- Command line options can be set programmatically using the Csound API.
- Numerous duplicate areas of code within Csound have been rationalized.
Csound For Live PerformanceEdit
Currently only Csound score or note events can be generated in real time (as opposed to instruments, which are only definable at compile time, when csound first starts; in Csound 6 this limitation is removed). The set of sound processors is defined and compiled at load time, but the individual processing objects can be spawned or destroyed in real time, input audio processed in real time, and output generated also in real time. Note events can be triggered based on OSC communications within an instrument instance, spawned by MIDI, or entered to stdin (by typing into a terminal or sending textual statements from another program). The use of Csound 5 as a live performance tool can be augmented with a variety of third-party software. Live Event Sheet within CsoundQt can be used to modify the score in real-time. In addition, interfaces to other programming languages can be used to script Csound. A paper detailing the use of Csound with Qt or Pure Data in real-time musical synthesis was presented at the 2012 Linux Audio Conference  The Ounk project  attempts to integrate Python with Csound. Audivation's Csound for Live packages various opcodes into Max/MSP wrappers suitable for use in Ableton Live. Csound is also available for mobile systems (iOS, Android).
One laptop per child (OLPC)Edit
- "Csound6 Released!"
- Joachim Heintz. "Csound as a Real-time Application". Institute for New Music.
- Peter Kirn (15 October 2011). "Csound For Live wiki". Create Digital Music.
- Synthhead (15 October 2011). "Csound For Live Coming October 17th wiki". Synthtopia.
- S. Yi and V. Lazzarini. "Csound for Android".
- "Csound on OLPC wiki". Retrieved 23 November 2010.
- Official website contains FAQs, manuals, programming examples, other front end programs, and misc other goodies. The mailing list archive is also a good place to find detailed information.
- Project site at SourceForge
- The Csound Manual
- csound - collaboratively developed manual on FLOSS Manuals
- MacCsound is an integrated Csound programming environment for Macintosh.
- Csound for MacOS Classic
- Csound Editor is an integrated programming environment for Csound [Windows].
- WinXoundPro another IDE for Csound.
- CsoundQt Another GUI front end for CSound [Windows/Mac/*NIX]
- Dex Tracker Dex Tracker a tracker style front end for csound Including a grid editor and code generation tools, and the ability to save your favorite sounds and rhythms as presets
- blue A music composition environment for Csound.
- Bol Processor A music composition environment for Csound and MIDI
- Automated CSound Orchestra Automated Csound orchestra building from individual instruments in csd format, convert midi to CSound, and record to Csound in real time (windows program)
- AlgoScore An algorithmic composition environment where one works in a graphical score, for Csound and MIDI.
- Csound-OLPC The Csound page in the OLPC wiki, with extra tutorials and XO-specific information and Dr.B's TOOTs
- The Csound Book edited by R Boulanger and the 3500+-instrument Csound Catalog
- Virtual Sound a Csound book for beginners, by R Bianchini and A Cipriani
- Csound Power! introduction to Csound by Jim Aikin
- Cecilia a production frontend for Csound.
- Cabbage production environnment for Csound-based cross-platform audio plugins
- Lettuce a Windows frontend/editor for Csound5.
- Csound-x for Emacs an Emacs frontend for Csound.
- Csound Helpers A list of links to Csound helper applications, mostly for Linux.
- Csound For Live is a collection of Csound based instruments and DSP plugins for Ableton Live.