X-Git-Url: https://scm.cri.ensmp.fr/git/Faustine.git/blobdiff_plain/1059e1cc0c2ecfa237406949aa26155b6a5b9154..66f23d4fabf89ad09adbd4dfc15ac6b5b2b7da83:/interpretor/preprocessor/faust-0.9.47mr3/examples/faust-stk/README diff --git a/interpretor/preprocessor/faust-0.9.47mr3/examples/faust-stk/README b/interpretor/preprocessor/faust-0.9.47mr3/examples/faust-stk/README deleted file mode 100644 index a43dca7..0000000 --- a/interpretor/preprocessor/faust-0.9.47mr3/examples/faust-stk/README +++ /dev/null @@ -1,122 +0,0 @@ -FAUST SYNTHESIS TOOLKIT: A SET OF LINEAR AND NONLINEAR PHYSICAL MODELS FOR FAUST - -CIEREC, EA 3068 Center for Computer Research in Music and Acoustics -Université Jean Monnet and (CCRMA) Stanford University -F-42023, Saint-Etienne, France Palo Alto, CA 94305, USA - - - -1/ What is it? --------------- - -The FAUST Synthesis ToolKit is a set virtual musical instruments written in the FAUST -programming language and based on waveguide algorithms and modal synthesis. Most of them -were inspired by instruments implemented in the Synthesis ToolKit and the program SynthBuilder. - -The STK is developed since 1996 by P. R. Cook and G. P. Scavone. It is a set of open -source audio signal processing and algorithmic synthesis classes written in the C++ programming -language that can be used in the development of music synthesis and audio processing -software (https://ccrma.stanford.edu/software/stk/). - -On the other hand, SynthBuilder was a program used at Stanford's CCRMA (Center for Computer Research -in Music and Acoustics) in the nineties to implement physical models of musical instruments. Most -of its algorithms use the waveguide synthesis technique but some of them are also based on modal synthesis. - -Our attention has partly been focused on the pedagogical aspect of the implemented objects. Indeed, -we tried to make the FAUST code of each objects as optimized and as expressive as possible. - -Some of the instruments in the (FAUST-STK) use nonlinear allpass filters to create interesting and -new behaviors. Also, most of them can be used with gesture following datas (see the /gesture-following folder -for some examples). - -2/ Which instruments? ---------------------- - -WIND INSTRUMENTS - - - A simple clarinet (clarinet.dsp), - - A clarinet with a tone hole model (blowHole.dsp), - - A flute (flutestk.dsp), - - A pan-flute (flute.dsp), - - A brass instrument that can be used as a trumpet, a trombon, a french horn, etc. (brass.dsp), - - A simple saxophone (saxophony.dsp), - - A bottle where it is possible to blow threw the neck to make sound (blowBotle.dsp). - -STRING INSTRUMENTS - - - An acoustic finger bass (bass.dsp), - - A bowed string instrument that can be used as a cello, a violin, etc. (bowed.dsp), - - A simple sitar (sitar.dsp), - - A nonlinear extended Karplus-Strong (NLFeks.dsp). - -KEYBOARDS INSTRUMENTS - - - A piano that uses commuted waveguide synthesis (piano.dsp), - - An harpsichord (harpsi.dsp). - -PERCUSSION INSTRUMENTS - - - A tibetan bowl (tibetanBowl.dsp), - - A wooden bare (uniBar.dsp), - - An iron bare (tunedBar.dsp), - - A glass bare (glassHarmonica.dsp), - - A set of percussion instruments that use modal synthesis (modalBar.dsp). - -OTHER - - - A voice synthesizer (voiceForm.dsp), - - A FM synthesizer that uses an nonlinear allpass filter (NLFfm.dsp). - -3/ Organisation of the distribution and remarks ------------------------------------------------ - -Most of the instruments implemented in the FAUST-STK use functions declared in instrument.lib so -this file is required for compilation. Also, a few instruments use datas that are stored in external -C++ functions (.h). - -The "pd-patches" folder contains examples of use of the FAUST-STK instruments in PureData (faust2pd -needs to be install on your computer to use these examples). - -The FAUST-STK instruments are all monophonic. If you wish to make them polyphonic, we recommend you -to compile them for PureData and to use faust2pd ("make pdpoly2" or "make pdpoly4" or "make pdpoly6" or -"make pdpoly8" where 2, 4, 6 and 8 are the number of voices). For more informations about that, -you can look at the examples in the pd-patches/ folder. - -You can find in the gesture-following/ folder an improved version of bowed.dsp that uses gesture following -datas in PureData (first, type "make" in a terminal and then open playMe.pd). This work has been done with -the help of E. Maestre (MTG, Barcelona). - -The instruments from the Faust-STK have been tested with the OSC support for FAUST implemented with some -of the architecture files (jackqt, jackgtk, etc.). - -3/ How to compile? ------------------- - -In order to compile the instruments, the latest FAUST repository must be installed on your computer -(03/21/2011) as well as all the required dependencies for the FAUST architecture you wish to use. - -Type "make help" in a terminal to print the list of available architectures and to know how to compile -the examples. - -4/ Acknowledgments ------------------- - -This work has been carried out in the frame of the ASTREE project (Analyse et Synthèse Temps REEl), -supported by the Agence Nationale de Recherche (ANR-08-CORD-003) at Stanford's CCRMA (Center for -Computer Research in Music and Acoustics). - -Special thanks to J.O. Smith, Y. Orlarey, E. Maestre, S. Letz and L. Pottier for their support and help. - -Thanks also to my colleagues from the CCRMA team for all their suggestions and good ideas. - -5/ Questions and suggestions ----------------------------- - -About FAUST-STK: rmichon@ccrma.stanford.edu or rmnmichon@gmail.com - -About FAUST: https://lists.sourceforge.net/lists/listinfo/faudiostream-users - - - - -Romain Michon \ No newline at end of file