Objects			page : 1 2 3 4 5 6 7 8 9 10 11 12 13 14
gem.linear_path	External		Linear path (currently not available)
gem.pix_scanline	External
gem.spline_path	External		Spline path (currently not available)
gem.textoutline	External		Creates a outline string
gen7	External		linear breakpoint function wavetable generator, b.p.f.
GLEETCHLAB 3	Standalone Application		A realtime modular composition and processing software for sound design and experimental music like glitch, IDM, electroacustic, ambient... Gleetchlab 3 is a modular software designed to process audio files and live sound sources in realtime. Unlike many music softwares, gleetchlab does not use a "timeline", instead you can process and record sound as it plays and quckly store every parameter into ten easy-to-recall temporary presets. You can manipulate samples with random loop points, alterate speed and direction of playing without limits, pencil-edit waveforms and use the internal DSPs such as convolution, feedback generator, granular re-synthesis, waveshaping distortion, spectral filtering, wow simulation, dynamic reverberation and your own VST plugins. Also you can record and re-record endlessly each processed sound into the 6 stereo loopers or manipulate sources coming from your soundcard and last but not least, use a quadriphonic suround mixer/recorder. Price 10.69€ Changes in V3 - Complete software redesign - MIDI Implementation - New DSPs - Quadriphonic mixing and recording - Parameters recall
grainbuffer~	External		grainbuffer~ is a MSP granular synthesis object that exploits the buffer~ object built into the Max/MSP environment. grainbuffer~ is a flexible tool that allows independent control over the buffer and the grain creation. For example, users can set the rate at which the grains read from the buffer independent of their dispersion or duration. Also, loop points in the buffer can be set, allowing the user to decide which portion of the buffer will be granulated. In addition, the buffer read point can be randomized. This randomization produces various effects ranging from a 'blurring' effect to that of total randomness of grain sources. The lastest version of grainbuffer~ is 64-bit and now features multichannel output with up to 32 channels of spatialized grains. All parameters can be randomized. Randomizable features include the frequency, amplitude, pan position, duration and dispersion (distance between grain start times). The randomness of each of these parameters is set by a range indicating an upper and a lower limit. If the limits are set the same then the grainbuffer~ will only generate single value for that parameter. Finally, the user can select the type of envelope. Envelope types include, sine, linear, exponential, trapezoid, parabolic, percussive, evissucrep (backwards percussive), and, of course, random, which chooses a new grain envelope randomly for each individual grain.
hoa.wider~	Abstraction		A fractional ambisonic's orders simulator. hoa.wider~ can be used to make more wide the diffusion of a localised sound. The order depending signals are weighted and appear in a logarithmic way to have linear changes.
hr.line~	External
hr.rampsmooth~	External		hr.rampsmooth~ smooths an incoming double precision signal across n samples. hr.rampsmooth~ smooths an incoming double precision signal across n samples. Each time an incoming value changes, it begins a linear ramp of n samples to reach this value. A type of lowpass filter. 'n' is specified either as an argument or with the 'ramp ' message
Hudak	Standalone Application		long delays of up to 2 minutes. 2 * 3 delay lines per channel. granulator and buffer record/play
ike.gain~	Abstraction		A simple audio gain abstraction that includes settable defaults and a line~ object for ramping gain changes.
intox	External		en-tab line for xml formatting
jb.interp	Abstraction		linear interpolation between two numerical lists
jb.uzi	Abstraction		send out a fast-as-possible linear count
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Libraries
A-Chaos Lib	debug: SELECT prenom, nom FROM auteurs RIGHT JOIN auteur_libraries USING (id_auteur) WHERE auteur_libraries.id_library='21' Sier	library of non-linear strange attractors for max under macintosh sys, extended from Richard Dudas Chaos Collection, including the source (24 dynamic non-linear systems:: a-baker, a-clifford, a-collatz, a-duffing, a-fibonacci, a-ginger, a-henon-heilles, a-henon, a-henonf, a-henonphase, a-ikeda, a-jong, a-logistic, a-logistic1, a-lorenz, a-lorenz.e,a-lyapunov, a-navier-stokes, a-navier-stokes.e, a-rossler, a-stein, a-stein1, a-torus and a-verhulst)
cv.jit	debug: SELECT prenom, nom FROM auteurs RIGHT JOIN auteur_libraries USING (id_auteur) WHERE auteur_libraries.id_library='19'Jean-Marc Pelletier	cv.jit is a collection of max/msp/jitter tools for computer vision applications. The goals of this project are to provide externals and abstractions to assist users in tasks such as image segmentation, shape and gesture recognition, motion tracking, etc. as well as to provide educational tools that outline the basics of computer vision techniques.
Jeroen_ChaosLib	debug: SELECT prenom, nom FROM auteurs RIGHT JOIN auteur_libraries USING (id_auteur) WHERE auteur_libraries.id_library='98'Jeroen Liebregts	This set of objects is capable of generating an infinite amount of attractors by automatically constructing nonlinear equations. These formulas are of the type quadratic and cubic, so their highest term is to the power of two (quadratic) or three (cubic). The quadratic equations go up to four dimensions, the cubic up to three. Example patches are included.
p.jit.gl.tools	debug: SELECT prenom, nom FROM auteurs RIGHT JOIN auteur_libraries USING (id_auteur) WHERE auteur_libraries.id_library='123' Pelado	the p.jit.gl tools are designed to provide for easier learning of and experimenting with the many attributes that are available to jitter's gl objects by making them a whole lot more transparent and accessible. patches expose jitter gl object's attributes to interfaces that allow you to immediately edit and change an attribute's value. many of the parameters are attached to blines, which provide smooth changes while rendering, and all settings can be saved and recalled as presets using the pattrs that are embedded in the patches.
SFA Max/MSP Library	debug: SELECT prenom, nom FROM auteurs RIGHT JOIN auteur_libraries USING (id_auteur) WHERE auteur_libraries.id_library='172'Stefano Fasciani	The SFA-MaxLib is a collection of Max/MSP objects developed in the context of the VCI4DMI. It includes functions and utilities in the form of FTM externals, FTM abstractions and Max abstractions. FTM is a shared library for Max/MSP developed by IRCAM, which provides a small and simple real-time object system and a set of optimized services to be used within Max/MSP externals. List of FTM Externals: sfa.eig - eigenvalues; sfa.inputcombinations - combination generator; sfa.levinson - levinson-durbin recursion; sfa.lpc2cep - lpc to cepstra conversion; sfa.rastafilt - rasta filter; sfa.rmd - relative mean difference; sfa.roots - polynomial roots; List of Abstractions: sfa.bark.maxpat - energy of the Bark bands from time domain frame;sfa.bark2hz_vect.maxpat - Herts to Bark conversion;sfa.barkspect.maxpat - energy of the Bark bands from spectrum; sfa.ceil.maxpat - ceil function; sfa.featfluxgate.maxpat - gated distance on stream of feature vectors; sfa.fft2barkmx.maxpat - utility sub-abstraction of sfa.bark; sfa.fft2barkmxN.maxpat - utility sub-abstraction of sfa.barkspect; sfa.hynek_eq_coeff.maxpat - hynek equalization coefficients; sfa.hz2bark.maxpat - Hertz to Bark conversion; sfa.hz2bark_vect.maxpat - Hertz to Bark conversion for vectors; sfa.hz2mel.maxpat - Hertz to Mel conversion; sfa.idft_real_coeff.maxpat - utility sub-abstraction of sfa.rasta-plp; sfa.maxminmem.maxpat - minimum and maximum of a stream of data; sfa.mfcc.maxpat - MFCC coefficients; sfa.modalphafilter.maxpat - 1st order IIR lowpass on a stream of vectors; sfa.nonlinfeqscale.maxpat - linear spectrum to Bark or Mel scale conversion; sfa.rasta-plp.maxpat - PLP and RASTA-PLP coefficients; sfa.spectmoments.maxpat - 4 spectral moments (centroid, deviation, skewness, kurtosis); sfa.3spectmoments+flatness.maxpat - 3 spectral moments (centroid, deviation, skewness) and the spectral flatness; sfa.spectralflux.maxpat - spectral flux on stream of spectrum vectors; sfa.spectralfluxgate.maxpat - gated spectral flux on stream of spectrum vectors; sfa.std.maxpat - standard deviation; sfa.win_to_fft_size.maxpat - smaller FFT size given frame size; sfa.GCemulator.maxpat – 3D gestural controller emulator;