{ balance: { doc: [ "Stereo balance control." ] vars: { in: { type:coeff, value:0.5, doc:"Input vaue" }, out: { type:coeff, doc:"Ouput value. Same as input value."}, inv_out: { type:coeff, doc:"1.0 minus output value."} } } midi_in: { doc: [ "MIDI input device."], vars: { dev_label: { type:string, doc:"MIDI input device label."}, port_label:{ type:string, doc:"MIDI input device port label."}, out: { type:midi, doc:"MIDI input port." }, } } midi_out: { doc: [ "MIDI output device."], vars: { dev_label: { type:string, doc:"MIDI output device label."}, port_label:{ type:string, doc:"MIDI output device port label."}, in: { type:midi, doc:"MIDI output port."} } } audio_in: { doc: [ "Audio input device." ], vars: { dev_label: { type:string, doc:"Audio device label." }, out: { type:audio, doc:"Audio output" }, } } audio_out: { doc: [ "Audio output device." ], vars: { dev_label: { type:string, doc:"Audio device label." }, in: { type:audio, flags:["src"], doc:"Audio input." } } } audio_file_in: { vars: { fname: { type:string, doc:"Audio file name." }, out:{ type:audio, doc:"Audio file output" }, on_off:{ type:bool, value:false, doc:"1=on 0=off" },, seekSecs:{ type:ftime, value:0.0, doc:"Seek to the specified seconds offset." } eofFl:{ type:bool, value: true, doc:"Set the system 'halt' flag when the audio is completely read."}, } } audio_file_out: { vars: { fname: { type:string, doc:"Audio file name." }, bits: { type:uint, value:32u, doc:"Audio file word width. (8,16,24,32,0=float32)."}, in: { type:audio, flags:["src"], doc:"Audio file input." } } } audio_gain: { vars: { in: { type:audio, flags:["src"], doc:"Audio input." }, gain: { type:coeff, value:1.0, doc:"Gain coefficient." } out: { type:audio, doc:"Audio output." }, } } audio_split: { vars: { in: { type:audio, flags:["src"], doc:"Audio input." }, select: { type:cfg, flags:["init"], doc:"A list of integers where each value selects an output channel for the associated input channel." } igain: { type:coeff, value:1.0, doc:"Audio gain for each input channel." } ogain: { type:coeff, flags["mult"], value:1.0, doc:"Audio gain for each output channel." } out: { type:audio, flags["mult"], doc:"Audio output." }, } presets: { mute_off: { gain:1 }, mute_on: { gain:0 }, } } audio_duplicate: { vars: { in: { type:audio, flags:["src"], doc:"Audio input."}, duplicate: { type: uint, doc:"Count of times to repeat this channel." }, gain: { type: coeff, value:1.0, doc:"Audio gain." }, out: { type:audio, doc:"Audio output containing repeat * input channel count channels."} } } audio_merge: { vars: { in: { type:audio, flags:["src", "mult"], doc:"Audio input channel." }, gain: { type:coeff, value: 1, flags:["src", "mult"], doc:"Input channel gain." }, out_gain: { type:coeff, value: 1, doc:"Output gain" }, out: { type:audio, doc:"Audio output. Channel count is the sum of the input channel count." }, } } audio_mix: { vars: { in: { type:audio, flags:["src","mult"], doc:"First audio input." }, igain: { type:coeff, flags:["mult"], value:0.5, doc:"Audio gain for input 0." }, ogain: { type:coeff, value:1.0, doc:"Output gain." }, out: { type:audio, doc:"Audio output. Channel count is max of the input signal channels." }, } } audio_delay: { vars: { in: { type:audio, flags:["src"], doc:"Audio input." }, maxDelayMs: { type:ftime, value:1000.0 doc:"Maximum possible delay in milliseconds." }, delayMs: { type:ftime, doc:"Delay in milliseconds." }, out: { type:audio, doc:"Audio output." }, } } sine_tone: { vars: { srate: { type:srate, value:0, doc:"Sine tone sample rate. 0=Use default system sample rate"} chCnt: { type:uint, value:2, doc:"Output signal channel count."}, hz: { type:coeff, value:440.0, doc:"Frequency in Hertz."}, phase: { type:coeff, value:0.0, doc:"Offset phase in radians."}, dc: { type:coeff, value:0.0, doc:"DC offset applied after gain."}, gain: { type:coeff, value:0.8, doc:"Signal frequency."}, out: { type:audio, doc:"Audio output" }, } presets: { a220 : { hz:220 }, a440 : { hz:440 }, a880 : { hz:880 }, mono: { chCnt:1, gain:0.75 } } } pv_analysis: { vars: { in: { type:audio, flags:["src"], doc:"Audio input." }, maxWndSmpN: { type:uint, value: 512, doc:"Maximum window sample count." }, wndSmpN: { type:uint, value: 512, doc:"Window sample count." }, hopSmpN: { type:uint, value: 128, doc:"Hop sample count." }, hzFl: { type:bool, value: false, doc:"Calculate frequency via the method of phase changeof each bin." }, out: { type:spectrum, doc:"Spectrum output." } } presets: { dry: { wndSmpN: 512, hopSmpN: 128 } kc: { wndSmpN: 512, hopSmpN: 128 } a: { wndSmpN: 512, hopSmpN: 128 } b: { wndSmpN: 512, hopSmpN: 128 } c: { wndSmpN: 512, hopSmpN: 128 } d: { wndSmpN: 512, hopSmpN: 128 } f_1: { wndSmpN: 512, hopSmpN: 128 } f_2: { wndSmpN: 512, hopSmpN: 128 } f_3: { wndSmpN: 512, hopSmpN: 128 } f_4: { wndSmpN: 512, hopSmpN: 128 } g: { wndSmpN: 512, hopSmpN: 128 } g_a: { wndSmpN: 512, hopSmpN: 128 } g_1_a: { wndSmpN: 512, hopSmpN: 128 } g_1_d: { wndSmpN: 512, hopSmpN: 128 } } } pv_synthesis: { vars: { in: { type:spectrum, flags:["src"], doc:"Spectrum input." }, out: { type:audio, doc:"Audio output." } } } spec_dist: { vars: { in: { type:spectrum, flags:["src"], doc:"Spectrum input." }, bypass: { type:bool, value: false, doc:"Copy input to output without transform."}, ceiling: { type:coeff, value: 30.0, doc:"Ceiling parameter."}, expo: { type:coeff, value: 2.0, doc:"Exponent parameter."}, thresh: { type:coeff, value: 54.0, doc:"Threshold parameter."}, upr: { type:coeff, value: -0.7, doc:"Upper slope parameter."}, lwr: { type:coeff, value: 2.0, doc:"Lower slope parameter."}, mix: { type:coeff, value: 0.0, doc:"Basic/Bump Mix parameter."}, out: { type:spectrum, doc:"Spectrum output." }, } presets: { dry: { } kc: { ceiling: 20.0, expo: 2.0, thresh: 65.0, upr: 0.0, lwr: 2.0, mix: 0.0 } a: { ceiling: 20.0 expo: 2.0 thresh: 60.0 upr: [ -1.1, -0.99], lwr: 2.0 mix: 0.0 } b: { ceiling: 20.0 expo: 2.0 thresh: [ 77.0, 74.0 ], upr: -0.5 lwr: [ 3.0, 2.0 ], mix: 0.0 } c: { ceiling: 20.0 expo: 2.0 thresh: 80.0 upr: -0.5 lwr: 5.0 mix: 0.0 } d: { ceiling: 20.0 expo: 2.0 thresh: 70.0 upr: [ -3.9, 04.5] lwr: 4.0 mix: 0.0 } f_1: { ceiling: 20.0 expo: 2.0 thresh: 50.0 upr: -3.0 lwr: 1.0 mix: 0.0 } f_2: { ceiling: 20.0 expo: 2.0 thresh: 60.0 upr: -3.0 lwr: 1.0 mix: 0.0 } f_3: { ceiling: 20.0 expo: 2.0 thresh: 55.0 upr: -3.0 lwr: 1.0 mix: 0.0 } f_4: { ceiling: 20.0 expo: 2.0 thresh: 55.0 upr: -5.0 lwr: 1.0 mix: 0.0 } g: { ceiling: 40.0 expo: 8.0 thresh: [60.0 64.0] upr: -0.7 lwr: 8.0 mix: 1.0 } g_a: { ceiling: 40.0 expo: 2.0 thresh: [50.0 54.0] upr: -0.7 lwr: 2.0 mix: 1.0 } g_1_a: { ceiling: 20.0 expo: 2.0 thresh: [50.0 54.0] upr: -0.7 lwr: 8.0 mix: 1.0 } g_1_d: { ceiling: [60.0 64.0] expo: [ 7.0 5.0] thresh: [40.0 34.0] upr: [-0.4 -0.3] lwr: [ 7.0 5.0] mix: 1.0 } } } compressor: { vars: { in: { type:audio, flags:["src"] true, doc:"Audio input." }, bypass: { type:bool, value: false, doc:"Bypass the compressor."}, igain: { type:coeff, value: 1.0, doc:"Input gain."}, thresh: { type:coeff, value: 90.0, doc:"Attack threshold in dB."}, ratio: { type:coeff, value: 2.0, doc:"Compression ratio."}, atk_ms: { type:coeff, value: 20.0, doc:"Attack time in milliseconds."}, rls_ms: { type:coeff, value: 20.0, doc:"Release time in milliseconds."}, wnd_ms: { type:coeff, value: 200.0, doc:"RMS calc. window length in milliseconds."}, maxWnd_ms: { type:coeff, value: 1000.0, doc:"Maximim (allocated) window length in milliseconds."}, ogain: { type:coeff, value: 1.0, doc:"Output gain."}, out: { type:audio, doc:"Audio output." }, } presets: { dflt: { igain: 3.0 thresh: 60.0 ratio: 5.0 atk_ms: 5.0 rls_ms: 20.0 wnd_ms:100.0 ogain: 1.0 } kc: { bypass: false igain: 3.0 thresh: 80.0 ratio: 2.0 atk_ms: 20.0 rls_ms: 1000.0 wnd_ms: 200.0 ogain: 1.0 } input: { bypass: false igain: 2.0 thresh: 30.0 ratio: 12.0 atk_ms: 5.0 rls_ms: 20.0 wnd_ms: 20.0 ogain: 0.5 } dry: { } a: { igain: 6.0 ogain: 1.0 } b: { igain: 10.0 ogain: 1.0 } c: { igain: 11.0 ogain: 1.0 } d: { igain: 9.0 ogain: 1.0 } f_1: { igain: 6.0 ogain: 1.0 } f_2: { igain: 6.0 ogain: 1.0 } f_3: { igain: 6.0 ogain: 1.0 } f_4: { igain: 6.0 ogain: 1.0 } g: { igain: 10.0 ogain: 0.75 } g_a: { igain: 10.0 ogain: 0.75 } g_1_a: { igain: 10.0 ogain: 0.75 } g_1_d: { igain: 10.0 ogain: 0.75 } } } limiter: { vars: { in: { type:audio, flags:["src"] true, doc:"Audio input." }, bypass: { type:bool, value: false, doc:"Bypass the limiter."}, igain: { type:coeff, value: 1.0, doc:"Input gain."}, thresh: { type:coeff, value: 0.0, doc:"Linear (0.0-1.0) threshold."}, ogain: { type:coeff, value: 1.0, doc:"Output gain."}, out: { type:audio, doc:"Audio output." }, } presets: { dflt: { bypass: false, igain: 1.0 thresh: 0.9, ogain: 1.0 } } } dc_filter: { vars: { in: { type:audio, flags:["src"], doc:"Audio input." }, bypass: { type:bool, value: false, doc:"Bypass the DC filter."}, gain: { type:coeff, value: 1.0, doc:"Output gain."}, out: { type:audio, doc:"Audio output." }, } presets: { dflt: { bypass: false, gain: 1.0 } } } audio_meter: { vars: { in: { type:audio, flags:["src"], doc:"Audio input." }, dbFl: { type:bool, value: true, doc:"Output in Decibels." }, wndMs: { type:ftime, value: 100.0, doc:"RMS window length." }, peakDb: { type:coeff, value: -10.0, doc:"Peak threshold." }, out: { type:coeff, value: 0.0, doc:"Meter output." }, peakFl: { type:bool, value: false, doc:"Peak output." } clipFl: { type:bool, value: false, doc:"Clip indicator output."} } } subnet: { vars: { } } poly: { vars: { count: { type:uint, doc:"Count of network duplicates." }, order: { type:string, value:"net", doc:"Execution order 'net'=net first 'proc'=proc first" } } } sample_hold: { vars: { in: { type:audio, flags:["src"], doc:"Audio input source." }, period_ms: { type:ftime, value:50, doc:"Sample period in milliseconds." }, out: { type:sample, value:0.0, doc:"First value in the sample period." }, mean: { type:sample, value:0.0, doc:"Mean value of samples in period." }, } } /* number: { vars: { value: { type:numeric, value:0.0, doc:"Input and output value."}, store: { type:numeric, value:0.0, doc:"Store but don't emit until the next exec."} } } */ number: { vars: { in: { type:numeric, value:0.0, flags["mult"], doc:"Input and output value."}, store: { type:numeric, value:0.0, flags["mult"], doc:"Store but don't emit until the next exec."}, trigger: { type:all, value:0.0, doc:"Send the currrent value."}, out_type: { type:string, value:double, flags:["init"], doc:"The type of the output value."}, out: { type:runtime, flags:["no_src"], doc:"Output numeric value."}, } } halt:{ vars: { in: { type:all, value:0.0, flags:["src"], doc:"Any value halts the network."}, } } // 'reg' maintains a copy of the last value received on either 'in' or 'store'. // When the value changes 'out' will emit the new value on the next execution cycle. // The data type of 'out' is determined by the data type of 'in'. // The data type of 'store' must be convertable to the data type of 'out'. reg: { vars: { in: { type:all, flags:["src"], doc:"Input value."}, store: { type:all, doc:"Alternate input value."}, out: { type:runtime, flags:["no_src"], doc:"Output value."}, } } timer: { vars: { srate: { type:srate, value:0, flags["src"], doc:"Sample rate to use as the time base. 0=Use default system sample rate." }, delay_ms: { type:ftime, value:0, doc:"Delay before the first output." }, period_ms: { type:ftime, value:100, doc:"Timer period in milliseconds." }, out: { type:bool, value:false, doc:"Output pulse." }, } } counter: { vars: { trigger: { type:all, flags["src"], doc:"Counter increments with each toggle of trigger." }, reset: { type:all, value:0.0, doc:"Reset the counter to the initial value." }, init: { type:numeric, value:0.0, doc:"Counter initial value." }, min: { type:numeric, value:0.0, doc:"Minimum output value." }, max: { type:numeric, value:10.0, doc:"Maximum output value." }, inc: { type:numeric, value:1.0, doc:"Incrment value." }, repeat_fl: { type:bool, value:true, doc:"Repeat on reaching the limits." }, mode: { type:string, value:"modulo", doc:"limit mode: 'modulo'=wrap, 'reverse'=count in opposite direction, 'clip'=repeat limit value."}, out_type: { type:string, value:double, flags:["init"], doc:"The type of the output value." }, upr_lim: { type:bool, value:false, flags:["no_src"], doc:"Outputs 'true' if the upper limit is reached." }, lwr_lim: { type:bool, value:false, flags:["no_src"], doc:"Outputs 'true' if the lower limit is reached." }, limit: { type:bool, value:false, flags:["no_src"], doc:"Outputs 'true' if the upper or lower limit is reached." }, out: { type:runtime, value:0.0, doc:"Counter output value."}, } } // All elements of the list must belong to the same of three possible types: // string,cfg,numeric (uint,int,float,double) list: { vars: { in: { type:uint, flags:["src"], doc:"List selection index." }, list: { type:cfg, doc:"List as a 'cfg' object." }, out: { type:runtime, doc:"List output value." }, value:{ type:runtime, flags["mult"], doc:"List 'mult' output per list value." }, } } add: { vars: { in: { type:numeric, flags:["src","mult"], doc:"Operands" }, otype: { type:string, value:double, flags:["init"], doc:"The type of the output value." }, out: { type:runtime, flags:["no_src"], doc:"Result" }, } } preset: { vars: { in: { type:string, flags:["src"], doc:"Preset to select." }, } } xfade_ctl: { poly_limit_cnt: 1, // Notes: // 1. It would be better to setup the source net-proc as a 'in' variable with type 'net'. // 2. The only purpose for the 'srateSrc' is to get the sample rate of the system. vars: { net: { type:string, doc:"Proc name of the poly network."}, netSfxId: { type:uint, value: 0, doc:"Label sfx id of the source poly instance."}, srateSrc: { type:audio, flags:["src"], doc:"Audio source to derive the sample rate."}, durMs: { type:uint, value:1000, doc:"Cross-fade duration in milliseconds" }, trigger: { type:all, doc:"Start cross-fade." }, preset: { type:string, doc:"Preset to apply to the poly network." }, gain: { type:coeff, flags:["mult"], value:0, doc:"Cross-fade gain output." } } }, print: { vars: { in: { type:all, flags:["mult"], doc: "Value to print." }, eol_fl: { type:all, doc: "Trigger an end-of-line." }, text: { type:cfg, doc: "List of labels." }, } } midi_msg: { vars: { ch: { type:uint, value:0, doc:"MIDI channel input." }, status: { type:uint, value:0, doc:"MIDI status input."}, d0: { type:uint, value:0, doc:"MIDI data byte 0."}, d1: { type:uint, value:0, doc:"MIDI data byte 1."}, trigger: { type:all, value:0, doc:"Send message."}, buf_cnt: { type:uint, value:16, flags:["init"], doc:"Length of internal msg buffer."}, out: { type:midi, doc:"MIDI output."}, } } }