U      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~                                  ! " # $ % & ' ( ) * + , - . / 0 1 2 3 4 5 6 7 8 9 : ; < = > ? @ A B C D E F G H I J K L M N O P Q R S T U V W X Y Z [ \ ] ^ _ ` a b c d e f g h i j k l m n o p q r s t u v w x y z { | } ~                  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~                          !!!"""###############################$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ $ $ $ $ $$$$$$$$$$$$$$$$$$$ $!$"$#$%&'()%*%+%,&-&.&/&0&1&2&3&4&5&6&7&8&9&:&;&<&=&>&?&@&A&B&C&D&E&F&G&H&I&J&K&L&M&N&O&P&Q&R&S&T&-<A class indicating a monad that will generate a sequence of  unique integer identifiers. k  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijkl5Provide symbolic names for standard unary operators. m6Provide symbolic names for standard binary operators. k  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmk5kjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:9876l43210/.-,+*)('&%$#"!  mk143210/.-,+*)('&%$#"!    !"#$%&'()*+,-./0123456kjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:98766789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnLPC analysis frame data. oLPC analysis meta-data. pqrstuvwxyLPC analysis data. z{|}%Read an lpanal format LPC data file. ~7Analysis data in format required by the sc3 LPC UGens. UVnopqrstuvwxyz{|}~yz{|opqrstuvwxn}~no pqrstuvwxpqrstuvwxyz{|z{|}~ATS analysis frame data. ATS analysis meta-data. ATS analysis data. Read an ATS data file. 7Analysis data in format required by the sc3 ATS UGens. WXYZ[  "Operating rate of unit generator. 9Rate constructors (lower case aliases of upper case data  constructors). ;Integer rate identifier, as required for scsynth bytecode. \ M/Identifier for non-functional unit generators. .Operating mode of unary and binary operators. "Unit generator output descriptor. Unit generator. 'Unit generator identifier constructor. !Constant value node constructor.  Control input node constructor. -Multiple channel expansion node constructor. &Multiple root graph node constructor. 'Unit generator proxy node constructor. Constant node predicate. Control node predicate. )Unit generator primitive node predicate. Proxy node predicate. +Multiple channel expansion node predicate. MRG predicate. +Multiple channel expansion for two inputs. +Clone a unit generator (mce . replicateM). !Number of channels to expand to. !Extend UGen to specified degree. Apply MCE transformation. &Apply MCE transformation if required. +Apply UGen list operation on MCE contents. "Reverse order of channels at MCE. Obtain indexed channel at MCE. #Output channels of UGen as a list. @Transpose rows and columns, ie. {{a,b},{c,d}} to {{a,c},{b,d}}. !Multiple root graph constructor. (Apply proxy transformation if required. Determine the rate of a UGen. 6Construct proxied and multiple channel expanded UGen. Operator UGen constructor. 3Unary math constructor with constant optimization. 4Binary math constructor with constant optimization. Oscillator constructor. 1Oscillator constructor, rate restricted variant. ,Oscillator constructor, setting identifier. :Variant oscillator constructor with MCE collapsing input. :Variant oscillator constructor with MCE collapsing input. Filter UGen constructor. Filter UGen constructor. Filter UGen constructor. 3Variant filter with rate derived from keyed input. 6Variant filter constructor with MCE collapsing input. 6Variant filter constructor with MCE collapsing input. 6Variant filter constructor with MCE collapsing input. 2Information unit generators are very specialized. MMMAmplitude follower. -Compressor, expander, limiter, gate, ducker.  Autocorrelation pitch follower. Slope of signal. "Zero crossing frequency follower.  Chaotic noise. 3Cusp map chaotic generator (linear interpolation). /Cusp map chaotic generator (no interpolation). AFeedback sine with chaotic phase indexing (cubic interpolation). BFeedback sine with chaotic phase indexing (linear interpolation). >Feedback sine with chaotic phase indexing (no interpolation). 3Henon map chaotic generator (cubic interpolation). 4Henon map chaotic generator (linear interpolation). 0Henon map chaotic generator (no interpolation). 5Latoocarfian chaotic function (cubic interpolation). 6Latoocarfian chaotic function (linear interpolation). 2Latoocarfian chaotic function (no interpolation). =Linear congruential chaotic generator (cubic interpolation). >Linear congruential chaotic generator (linear interpolation). :Linear congruential chaotic generator (no interpolation). 1Lorenz chaotic generator (linear interpolation). ?General quadratic map chaotic generator (cubic interpolation). @General quadratic map chaotic generator (linear interpolation). <General quadratic map chaotic generator (no interpolation).   Envelope curve indicator input.  $Warp interpolation indicator input.     !Completion mode indicator input. Interpolation indicator input. Loop indicator input.                    +Resynthesize sinusoidal ATS analysis data. >Resynthesize sinusoidal and critical noise ATS analysis data. 4Emulation of AY (aka YM) soundchip, used in Spectrum/Atari. AConvert frequency value to value appropriate for AY tone inputs. $Phase modulation oscillator matrix.  3Triangular waveguide mesh of a drum-like membrane. !3Triangular waveguide mesh of a drum-like membrane. "1Extract cps, rmso and err signals from LPC data. # Resynthesize LPC analysis data. $Invert FFT amplitude data. %STK flute model. &STK modal bar models. 'STK bowed string model. (STK mandolin model. )STK shaker models. *"Vocal simulation due to W. Kaegi.  !"#$%&'()* !"#$%&'()* !"#$%&'()* Z+"Allpass filter (no interpolation) ,&Allpass filter (linear interpolation) -%Allpass filter (cubic interpolation) .-Basic psychoacoustic amplitude compensation. />ANSI A-weighting curve psychoacoustic amplitude compensation. 0Bandpass filter 1Two zero fixed midpass filter. 2Band reject filter 3Two zero fixed midcut filter. 4+Clip input between lower and upper bounds. 5Comb filter (no interpolation) 6#Comb filter (linear interpolation) 7"Comb filter (cubic interpolation) 8Convert signal to modal pitch. 9Exponential decay. ::Exponential decay (equvalent to $decay dcy - decay atk$). ;Single sample delay. <Two sample delay. =)Simple delay line (cubic interpolation). >*Simple delay line (linear interpolation). ?&Simple delay line (no interpolation). @FOF like filter. AFirst order filter section. BA simple reverb. CA simple reverb (two channel). DGate. EHash input values. FHilbert transform. GHighpass filter. HTwo point difference filter. I Two zero fixed highpass filter. J"Is signal within specified range. KFixed resonator filter bank. LGFormat frequency, amplitude and decay time data as required for klank. MSimple averaging filter. NNested lag filter. OTwice nested lag filter. P*Last value before chang above threshhold. QSample and hold. RRemove DC offset. S3Map from one linear range to another linear range. T1Map from a linear range to an exponential range. ULowpass filter. VTwo point average filter. WTwo zero fixed lowpass filter. X*Masks off bits in the mantissa of signal. YMedian filter. ZMoog VCF implementation. [Most changed input. \Multiply add ternary operator. ]Flattens dynamics. ^One pole filter. _One zero filter. `Maximum value. a"Simple time domain pitch shifter. bKarplus-Strong synthesis. cTrigger counter. dPass every nth trigger. e Linear lag. fResonant highpass filter. gResonant lowpass filter. hResonant filter. i'Ringing filter (equivalent to Resonz). jTrack maximum level. kTrack minimum level. l Running sum. m$Select output from array of inputs. nKSend a trigger message from the server back to the all registered clients. oSet-reset flip flop. p Wave shaper. q*Remove transients and higher frequencies. r'Second order filter section (biquad). sStepper pulse counter. tTriggered linear ramp. u&Delay trigger by specified interval. vTime since last triggered. wToggle flip flop. x6When triggered output trigger for specified duration. y:When triggered output unit signal for specified duration. zTwo pole filter. {Two zero filter. |"Index into a table with a signal. }~Z+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~Z+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~Z+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ 2Granular synthesis with sound stored in a buffer. 8Granular synthesis with frequency modulated sine tones. Granulate an input signal. $Granular synthesis with sine tones. #Warp a buffer with a time pointer.  4Sample rate of synthesis server, frames per second. !Duration of one sample, seconds. !Duration of one sample, radians. 6Control rate of synthesis server, periods per second. 'Sub-sample accurate scheduling offset. -Number of allocated output audio rate buses. ,Number of allocated input audio rate buses. &Number of allocated audio rate buses. (Number of allocated control rate buses. Number of allocated buffers. $Number of runnings synthesis nodes.    Autocorrelation beat tracker.  Template matching beat tracker. /Extraction of instantaneous loudness in sones. 4Translate onset type string to constant UGen value. Onset detector. 9Onset detector with default values for minor parameters.  Key tracker. %Mel frequency cepstral coefficients.    IBinary operator class. Unary operator class. IVariant on Ord class, result is of the same type as the values compared. HVariant on Eq class, result is of the same type as the values compared. III$ Band Limited ImPulse generator. Formant oscillator. >Fast sine wave oscillator implemented using a ringing filter. DDynamic stochastic synthesis generator conceived by Iannis Xenakis. 'Impulse oscillator (non band limited). Bank of fixed oscillators. BFormat frequency, amplitude and phase data as required for klang. ,Upsample control rate signal to audio rate. ,A sine like shape made of two cubic pieces. ,A sine like shape made of two cubic pieces. %Pulse oscillator (non band limited). (Sawtooth oscillator (non band limited). (Sawtooth oscillator (non band limited). *Triggered linear ramp between two levels. %Pulse wave generator (band limited). $Sawtooth oscillator (band limited).  Silence. Sine oscillator. 3Sawtooth oscillator hard synched to a fundamental. #Variable duty sawtooth oscillator.   Two channel equal power panner. Two channel linear pan. Rotate a sound field. 2D Ambisonic B-format panner. 2D Ambisonic B-format decoder.     Randomize order of bins.  Randomly clear bins.  *Cross fade, copying bins in random order.            Brown noise.   Clip noise. !Randomly pass or block triggers. Random impulses in (-1, 1). Random impulse in (0,1). *Random value in exponential distribution.  Gray noise. (Random integer in uniform distribution.  Clip noise. Dynamic clip noise. Dynamic step noise. Dynamic ramp noise. Dynamic quadratic noise Dynamic cubic noise  Step noise.  Ramp noise. Quadratic noise. ,Random value in skewed linear distribution. .Random value in sum of n linear distribution.  Pink noise.  &Random value in uniform distribution. !5Random value in exponential distribution on trigger. "3Random integer in uniform distribution on trigger. #1Random value in uniform distribution on trigger. $Triggered windex. % White noise.    !"#$%   !"#$%   !"#$%']^_`abcd]^_`abcd]^_`abcd"&Buffer channel count. 'Buffer duration, in seconds. (Buffer frame count. )7Buffer rate scalar with respect to server sample rate. *Buffer sample rate. +8Buffer sample count (ie. frame count by channel count). ,&Allpass filter (cubic interpolation). -'Allpass filter (linear interpolation). .#Allpass filter (no interpolation). /#Comb filter (cubic interpolation). 0$Comb filter (linear interpolation). 1 Comb filter (no interpolation). 2"Delay line (cubic interpolation). 3#Delay line (linear interpolation). 4Delay line (no interpolation). 5Buffer reader. 6"Buffer reader (no interpolation). 7&Buffer reader (linear interpolation). 8%Buffer reader (cubic interpolation). 9Buffer writer. :Search a buffer for a value. ;Index into table with signal. <'Interpolating search in ordered table. =Wavetable oscillator. >Wavetable oscillator. ?Buffer playback. @Buffer recording. A-Triggered buffer shuffler (grain generator). B%Three variable wavetable oscillator. CVariable wavetable oscillator. D&Allocate a buffer local to the synth. E4Set the maximum number of local buffers in a synth. FSet local buffer values. G5Generate a localBuf and use setBuf to initialise it. "&'()*+,-./0123456789:;<=>?@ABCDEFG"&'()*+,-./0123456789:;<=>?@ABCDEFG"&'()*+,-./0123456789:;<=>?@ABCDEFGH8Infinte repeat counter for demand rate unit generators. I'Demand results from demand rate ugens. JDemand envlope generator. K'Demand results from demand rate ugens. L2Demand results as trigger from demand rate ugens. HIJKLHIJKLHIJKLMStream soundfile from disk. nc Number of channels in buffer/ soundfile. bufnum? Buffer used for streaming (the file descriptor has to be left  open, see the /b_read server command). loop! Whether to loop playback (0, 1) N8Stream soundfile from disk with variable playback rate. nc Number of channels in buffer/ soundfile. bufnum? Buffer used for streaming (the file descriptor has to be left  open, see the /b_read server command). rate Playback rate loop Whether to loop playback (0,1) MNMNMN O"Segment based envelope generator. PLine generator. QExponential line generator. RFree node on trigger. S$Free node on done action at source. T!Pause specified node on trigger. UPause node on trigger. V%Pause node on done action at source. W0One while the source is marked done, else zero. X4Raise specified done action when input goes silent. Y$When triggered free specified node. ZLinear envelope generator. OPQRSTUVWXYZ OPQRSTUVWXYZ OPQRSTUVWXYZ[!Basic envelope data constructor. \-Co-ordinate based static envelope generator. ]7Trapezoidal envelope generator. The arguments are: 1. shape /determines the sustain time as a proportion of dur , zero is a 4triangular envelope, one a rectangular envelope; 2. skew determines  the attack/;decay ratio, zero is an immediate attack and a slow decay, -one a slow attack and an immediate decay; 3. duration in seconds; 4.  amplitude as linear gain. ^_CPercussive envelope, with attack, release, level and curve inputs. `5Triangular envelope, with duration and level inputs. a/Sine envelope, with duration and level inputs. b'Linear envelope parameter constructor. [\]^_`ab[\]^_`ab[\]^_`abc*Read signal from an audio or control bus. d6Define and read from buses local to a synthesis node. e!Control rate bus input with lag. f+Read signal from a bus without erasing it. g)Generate a trigger anytime a bus is set. h'Mix signal to an audio or control bus. i.Over-write signal to an audio or control bus. j5Mix signal to an audio bus at precise sample offset. k<Write signal to bus local to a synthesis node, see localIn. l-Crossfade signal to an audio or control bus. mno'Report the status of a particular key. p/Report the status of the first pointer button. qCursor UGen, X axis. rCursor UGen, Y axis. sControl variant. cdefghijklmnopqrscdefghijklmnopqrscdefghijklmnopqrs t4Dynamic klank, set of non-fixed resonating filters. u-Frequency shifter, in terms of Hilbert UGen. v'Linear interpolating variant on index. w0Collapse multiple channel expansion by summing. x"Construct and sum a set of UGens. yMonadic variant on mixFill. zPM oscillator. { Zero indexed audio input buses. |/Pan a set of channels across the stereo field. tuvwxyz{| tuvwxyz{| tuvwxyz{|}Buffer demand ugen. ~'Buffer write on demand unit generator. Demand rate white noise. !Demand rate integer white noise. Demand rate brown noise. !Demand rate integer brown noise. Demand rate random selection. ;Demand rate random selection with no immediate repetition. Demand rate arithmetic series. Demand rate geometric series.  Demand rate sequence generator. Demand rate series generator. Demand input replication Demand rate input switching. Demand rate input switching. }~}~}~(,      !"#$%}~ Lift base UGen to monadic form.  Lift base UGen to monadic form.  Lift base UGen to monadic form.  Lift base UGen to monadic form. Buffer demand ugen. 'Buffer write on demand unit generator. Demand rate white noise. !Demand rate integer white noise. Demand rate brown noise. !Demand rate integer brown noise. Demand rate random selection. ;Demand rate random selection with no immediate repetition. Demand rate arithmetic series. Demand rate geometric series.  Demand rate sequence generator. Demand rate series generator. Demand input replication Demand rate input switching. Demand rate input switching. Randomize order of bins. Randomly clear bins. *Cross fade, copying bins in random order.   Brown noise.  Clip noise. !Randomly pass or block triggers. Random impulses in (-1, 1). Random impulse in (0,1). *Random value in exponential distribution.  Gray noise. (Random integer in uniform distribution.  Clip noise. Dynamic clip noise. Dynamic step noise. Dynamic ramp noise. Dynamic quadratic noise Dynamic cubic noise  Step noise.  Ramp noise. Quadratic noise. ,Random value in skewed linear distribution. .Random value in sum of n linear distribution.  Pink noise. &Random value in uniform distribution. 5Random value in exponential distribution on trigger. 3Random integer in uniform distribution on trigger. 1Random value in uniform distribution on trigger. Triggered windex.  White noise. !Demand rate (:) function. )/*efgefgefg"h'Encode and prefix with encoded length. .Encode a list of OSC bundles as an NRT score. -Write a list of OSC bundles as an NRT score. >Write a list of OSC bundles as an NRT score to a file handle. #=ijklm:Type to represent the left hand side of an edge in a unit  generator graph. 1Type to represent nodes in unit generator graph. (Type to represent unit generator graph. n Port index. oNode identifier. )Transform a unit generator into a graph. *Transform a unit generator into bytecode. 7Simple statistical analysis of a unit generator graph. pqrstuvwxyz{|}~"$B"Enumeration of OSC printer types. FEnumeration of possible locations to add new nodes (s_new and g_new). 9Install a bytecode instrument definition. (Asynchronous) @Load an instrument definition from a named file. (Asynchronous) ALoad a directory of instrument definitions files. (Asynchronous) 6Remove definition once all nodes using it have ended. Place a node after another. Place a node before another. Fill ranges of a node's control values. Delete a node.  Map a node's controls to read from a bus.  Map a node's controls to read from buses. Get info about a node. Turn node on or off.  Set a node's control values. Set ranges of a node's control values. Trace a node. Get control values. Get ranges of control values. Create a new synth. Create a new synth. Auto-reassign synth's ID to a reserved value. 6Free all synths in this group and all its sub-groups. Delete all nodes in a group. Add node to head of group. Create a new group. Add node to tail of group. $Send a command to a unit generator. OAllocates zero filled buffer to number of channels and samples. (Asynchronous) -Allocate buffer space and read a sound file. 7Close attached soundfile and write header information.  Fill ranges of sample values.  Free buffer data.  !Call a command to fill a buffer.  Get sample values.  Get ranges of sample values. Request /b_info messages. .Read sound file data into an existing buffer. Set sample values. Set ranges of sample values. Write sound file data. Zero sample data. Fill ranges of bus values. Get bus values. Get ranges of bus values. Set bus values. Set ranges of bus values. .Remove all bundles from the scheduling queue. 9Select printing of incoming Open Sound Control messages. :Select reception of notification messages. (Asynchronous) Stop synthesis server. Request /status.reply message. Request /@synced Message when all current asynchronous commands complete. Set single sample value.  Set a range of sample values. !Set single bus values. "!Set a signle node control value. B      !"B      !"B      !"#)Construct an instrument definition, send  d_recv and s_new  | messages to scsynth. $,Free all nodes at the group with node id 1. %*Send an osc message and wait for a reply. &3Free all nodes and re-create group node with id 1. 'Bracket SC3 communication. (withSC3 . play #$%&'(#$&%'(#$%&'(%)#Collect server status information. *$Read nominal sample rate of server. +#Read actual sample rate of server. )*+)*+)*+&),Fast fourier transform. -AVariant FFT constructor with default values for hop size, window  | type, and active status. . Inverse Fast Fourier Transform. /1Variant ifft with default value for window type. 08Strict convolution of two continuously changing inputs. 14Pack demand-rate FFT bin streams into an FFT chain. 2>Format magnitude and phase data data as required for packFFT. 345#Shift and scale the bin positions. 6+Combine low and high bins from two inputs. 7*Clear bins above or below a cutoff point. 89Copies spectral frame. :;<=>?@ABCDEFGHIJKLMNOPQR>Calculate size of accumulation buffer given FFT and IR sizes. SGGenerate accumulation buffer given time-domain IR buffer and FFT size. TPartitioned convolution. ),-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRST),-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRST),-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRST+n      !"#$%&'()*+,  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRST-%  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRST./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~                ! " # $ % & ' ( ) * + , - . / 0 1 2 3 3 4 5 6 6 7 8 9 : : ; < = > ? @ > A B C D E F G H I J K L M N O P Q R S T U V W X Y Z [ \ ] ^ _ ` a b c d e f g h i j k l m n o p q r s t u v w x y z { | } ~                                                       !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~/01 2 3 4 5 6 7 8 9 : ; < = > ? @ A B C D E F G H I J K!!!"""###############################$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ $ $ $ $ $$$$$$$$$$$$$$ !%"%#%$&%&&&'&(&)&*&+&,&-&.&/&0&1&2&3&4&5&6&7&8&9&:&;&<&=&>&?&@&A&B&C&D&E&F&G&H&I&J&K&L&MNOPQRSTU'V'W'X'Y'Z'['\']*^*_*`"a#b#b#c#d#e#f#g#h#i#j#k#l#m#n#o#p#q#r#s#t#u#v#w#x#y#z#{#|#}#~%%%%hsc3-0.7Sound.SC3.Server.PlaySound.SC3.UGen.UIdSound.SC3.UGen.OperatorSound.SC3.UGen.External.LPCSound.SC3.UGen.External.ATSSound.SC3.UGen.RateSound.SC3.UGen.UGenSound.SC3.UGen.AnalysisSound.SC3.UGen.ChaosSound.SC3.UGen.EnumSound.SC3.UGen.ExternalSound.SC3.UGen.FilterSound.SC3.UGen.GranularSound.SC3.UGen.InformationSound.SC3.UGen.MachineListeningSound.SC3.UGen.MathSound.SC3.UGen.OscillatorSound.SC3.UGen.PannerSound.SC3.UGen.FFT.BaseSound.SC3.UGen.Noise.BaseSound.SC3.UGen.BufferSound.SC3.UGen.DemandSound.SC3.UGen.DiskIOSound.SC3.UGen.Envelope!Sound.SC3.UGen.Envelope.ConstructSound.SC3.UGen.IOSound.SC3.UGen.CompositeSound.SC3.UGen.Demand.BaseSound.SC3.UGen.UGen.LiftSound.SC3.UGen.Demand.MonadicSound.SC3.UGen.FFT.MonadicSound.SC3.UGen.Noise.Monadic Sound.SC3.UGen.Composite.MonadicSound.SC3.Server.NRTSound.SC3.Server.SynthdefSound.SC3.Server.CommandSound.SC3.Server.StatusSound.SC3.UGen.FFTSound.SC3.UGen.UtilitiesSound.SC3.UGen.BaseSound.SC3.UGen.MonadicSound.SC3.Server.UtilitiesSound.SC3.ServerSound.SC3.UGen Sound.SC3hosc-0.7 Sound.OpenSoundControl.TransportsendUId generateUIdBinary ExpRandRange RandRangeFirstArgWrap2Fold2ExcessClip2ScaleNegAMClipThreshAbsDifSqrDifSqrSumSumSqrDifSqrRing4Ring3Ring2Ring1Fill UnsignedShift ShiftRight ShiftLeftPowHypotxHypotAtan2TruncRoundUpRoundGCDLCMBitXorBitOrBitAndMaxMinGELEGT_LT_NEEQ_ModFDivIDivMulSubAddUnarySCurveRamp TriWindow WelchWindow HanWindow RectWindowThruSilence DigitValueCoinSoftClipDistortSum3Rand BiLinRandLinRandRand2RandTanHCosHSinHArcTanArcCosArcSinTanCosSinLog10Log2LogCPSOctOctCPSAmpDbDbAmp RatioMIDI MIDIRatioCPSMIDIMIDICPSRecipExpSqrtCubedSquaredSignFracFloorCeilAsIntAsFloatAbsBitNotNotNilIsNilNotNeg unaryName binaryNameLPCFrame LPCHeader lpcHeaderSizelpcMagic lpcNPoles lpcFrameSize lpcFrameRate lpcSampleRatelpcAnalysisDuration lpcNFramesLPC lpcHeader lpcFrameslpcReadlpcSC3ATSFrame ATSHeader atsSampleRate atsFrameSize atsWindowSize atsNPartials atsNFramesatsMaxAmplitudeatsMaxFrequencyatsAnalysisDuration atsFileTypeATS atsHeader atsFramesatsReadatsSC3RateDRARKRIRarkrirdrrateIdUGenIdSpecialOutputUGenMRGmrgLeftmrgRightMCE mceProxiesProxy proxySource proxyIndex PrimitiveugenRateugenName ugenInputs ugenOutputs ugenSpecialugenIdControlcontrolOperatingRate controlNamecontrolDefaultConstant constantValueuidconstantcontrolmcemrg2proxy isConstant isControlisUGenisProxyisMCEisMRGmce2clone mceDegree mceExtend mceTransform mceExpandmceEdit mceReverse mceChannel mceChannels mceTransposemrgproxifyrateOfis_sink check_inputmkUGen mkOperatormkUnaryOperatormkBinaryOperatormk_oscmkOscmkOscRmkOscId mk_osc_mcemkOscMCE mkOscMCEId mk_filter all_ratesmkFilter mkFilterR mkFilterId mkFilterKeyed mk_filter_mce mkFilterMCER mkFilterMCE mkFilterMCEIdmkInfo amplitude 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