Objects			page : 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
record~	External		Copy a signal into a buffer~ record~ records a signal into a buffer~ object. You can record up to 4 channels by specifying the optional argument. Record stops when it has filled up the buffer~
remove	Abstraction		Removes the nth element of a list. Removes the nth element of a list. When the position (= index) is bigger than the the list size, the last element will be truncated.
replace	Abstraction		Replaces an element of a list Replaces an element of a list with a replacement list/element in the position sent to the rightmost inlet . When the position number (= index) is bigger than the list size, the replacement will substitute the last element of the list. A bang or a list sent to the leftmost inlet triggers the output.
rev1~	Abstraction		reverb rev1~ is a simple reverberation unit with lowpass filtering which is slightly more costly in terms of CPU usage than the "cheap" reverb unit: rev4~. Both reverb units have a mono input with stereo reverb output. Since the two outputs differ only by phase content, one output may be used alone when monophonic reverberation is required. The six control inputs of rev1~ control respectively, early reflection level, longer echoes level, late reverberation level, lowpass filter (damping) level, room size, and reverb time.
rev4~	Abstraction		cheap reverb This is a "cheap reverb" which is less CPU-intensive than rev1~, but which does not sound as nice. Both reverb units have a mono input with stereo reverb output. Since the two outputs differ only by phase content, one output may be used alone when monophonic reverberation is required.
rfc.multicollmanager	Patch		This abstraction was made to "merge" several coll's objects into one. This can be used to save all your's patch information and to load again when you open you patch. This abstraction was made to "merge" several coll's objects into one. This can be used to save all your's patch information and to load again when you open you patch. You have also the possibility to setup an start point, using an internal coll with all the settings you need... something like "start first time" to initialize your patch at an neutral state. If you find any bug, or you are have problems with it, please contact me to: web.rfcaldas@gmail.com Hope you enjoy, and sorry my bad english!
rh.floscroll	Abstraction		rh.floscroll allows you to select two keys on your computer keyboard which when held down will scroll up & down through floating point number values. The scrolling speed is user defined. Arguments The first argument (int) sets the ASCII code number for a key on the computer keyboard for scrolling upwards through floating point number values. The second argument (int) sets the ASCII code number for a key on the computer keyboard for scrolling downwards through floating point number values. The third argument (int)sets the scrolling speed in milliseconds. Output The left outlet is the scrolled floating point number value when the selected key on the computer keyboard is depressed. The 2nd and 3rd outlets when connected to a message box display the scrolling key names. The 4th and 5th outlets are the ASCII numbers for the scrolling keys.
rh.flostep	Abstraction		rh.flostep allows you to select two keys on your computer keyboard which when pressed will step up & down through floating point number values. The step size is user defined. Arguments The first argument (int) sets the ASCII code number for a key on the computer keyboard for stepping upwards through floating point number values. The second argument (int) sets the ASCII code number for a key on the computer keyboard for stepping downwards through floating point number values. The third argument (int) sets the step value. Output The left outlet is the floating point value when the selected key on the computer keyboard is depressed. The 2nd and 3rd outlets when connected to a message box display the key names for stepping upwards and downwards. The 4th and 5th outlets are the ASCII numbers for the key commands.
rh.intscroll	Abstraction		rh.intscroll allows you to select two keys on your computer keyboard which when held down will scroll up & down through integer values. The scrolling speed is user defined. Arguments The first argument (int) sets the ASCII code number for a key on the computer keyboard for scrolling upwards through integer values. The second argument (int)sets the ASCII code number for a key on the computer keyboard for scrolling downwards through integer values. The third argument (int) sets the scrolling speed in milliseconds. Output The left outlet is the scrolled integer value when the selected key on the computer keyboard is depressed. The 2nd and 3rd outlets when connected to a message box display the scrolling key names. The 4th and 5th outlets are the ASCII numbers for the scrolling keys.
rh.intstep	Abstraction		rh.intstep allows you to select two keys on your computer keyboard which when pressed will step up & down through integer values. The step size is user defined. Arguments The first argument (int) sets the ASCII code number for a key on the computer keyboard for stepping upwards through integer values. The second argument (int) sets the ASCII code number for a key on the computer keyboard for stepping downwards through integer values. The third argument (int) sets the step value. Output The left outlet is the integer value when the selected key on the computer keyboard is depressed. The 2nd and 3rd outlets when connected to a message box display the key names for stepping upwards and downwards. The 4th and 5th outlets are the ASCII numbers for the key commands.
rit-acc	Abstraction		Generates a ritardando or an accelerando Generates a ritardando or an accelerando, depending on the slope parameter. If it is < 1, the tempo becomes faster, when it is > 1, the speed slows down.
rm.floatlistconverter	External		Fixes bugged output from an mxj when using outletHigh(int outletIdx, java.lang.String message, float[] values) or outletHigh(int outletIdx, java.lang.String message, int[] values). Fixes bugged output from an mxj when using outletHigh(int outletIdx, java.lang.String message, float[] values) or outletHigh(int outletIdx, java.lang.String message, int[] values). See my post about the bug on Cycling 74's forums for more info: http://cycling74.com/forums/topic.php?id=34998
rm.numboxfix	Javascript (js)		Add PureData-like numberbox behavior Normally when typing a in a number box in Max, the number box retains focus after hitting enter (unlike Pd) and can be problematic in performance if the numbers on the keyboard are also mapped to handle other commans. This js provides a method for clearing focus on a number box when hitting enter or tab.
rm.slice	Javaclass (mxj)		The [rm.slice] object fills a call with start and endpoints for segments within a buffer~ based on when amplitude rises above a given threshold. The [rm.slice] object fills a call with start and endpoints for segments within a buffer~ based on when amplitude rises above a given threshold. This is a java implementation of Nao Tokui's [slice~] based on a Max implementation by Volker Böhm (see subpatcher below).
route#	Abstraction		To prevent #x arguments to be fired when you edit the original but still rotes it to an extra outlet.
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Libraries
FuzzyLib	debug: SELECT prenom, nom FROM auteurs RIGHT JOIN auteur_libraries USING (id_auteur) WHERE auteur_libraries.id_library='139'Alain Bonardi Isis Truck	When manipulating human knowledge such as perception, feelings, appreciation, veracity of facts, etc., the classical logic that recognize only two truth degrees (true or false) is not always the most suitable. To solve this problem, more than two degrees are considered in the non-classical logics. The fuzzy logic is one of these logics. In this logic, facts are represented through membership functions: when the membership value is equal to 1 the fact is exactly true; when it is equal to 0 the fact is exactly false; in between there is an uncertainty about the veracity of the fact. These membership functions are called "fuzzy subsets". They can be of different shapes: gaussian, trapezoidal, triangular, etc. Thus the aim of the fuzzy logic is to propose a theoretical framework for the manipulation - representation and reasoning - of such facts. The Fuzzy Lib library implements all the tools that are necessary to handle this manipulation: representation of a fuzzy subset (among them are the fuzzification, defuzzification and partitioning), reasoning process (generalized modus ponens, fuzzy implications, t-norms, t-conorms, etc.). This version 1 of the Fuzzy Lib enables to implement fuzzification, uncertain reasoning and defuzzification for any number of data in the framework of Max/MSP environment.