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Diffstat (limited to 'doc/help/cyclone/svf~-help.pd')
| -rw-r--r-- | doc/help/cyclone/svf~-help.pd | 261 |
1 files changed, 156 insertions, 105 deletions
diff --git a/doc/help/cyclone/svf~-help.pd b/doc/help/cyclone/svf~-help.pd index ced9c67..8fcc762 100644 --- a/doc/help/cyclone/svf~-help.pd +++ b/doc/help/cyclone/svf~-help.pd @@ -1,129 +1,180 @@ -#N canvas 0 31 800 366 10; -#X obj 407 306 dac~; -#N canvas 252 136 556 460 svf_part2 0; -#X text -1 306 onepole~.help contains yet another example.; -#X text -1 382 svf~ accepts arguments or max messages to change the +#N canvas 621 82 567 530 10; +#X obj 0 857 cnv 15 552 21 empty empty empty 20 12 0 14 -233017 -33289 +0; +#X obj 0 453 cnv 3 550 3 empty empty inlets 8 12 0 13 -228856 -1 0 +; +#N canvas 617 315 365 289 META 0; +#X text 0 18 LICENSE SIBSD; +#X text 0 180 LIBRARY cyclone; +#X text 0 0 KEYWORDS signal filter state variable state-variable cutoff +; +#X text 0 36 DESCRIPTION state-variable filter; +#X text 0 54 INLET_0 signal; +#X text 0 72 INLET_1 signal float; +#X text 0 90 INLET_2 signal float; +#X text 0 108 OUTLET_0 signal; +#X text 0 126 OUTLET_1 signal; +#X text 0 144 OUTLET_2 signal; +#X text 0 162 OUTLET_3 signal; +#X text 0 199 VERSION 0.1-alpha57; +#X text 0 217 AUTHOR Krzysztof Czaja; +#X text 1 235 RELEASE_DATE 2002; +#X text 2 254 WEBSITE http://suita.chopin.edu.pl/~czaja/miXed/externs/cyclone.html +; +#X text 2 286 HELP_PATCH_AUTHORS Christoph Kummerer. Revised by Jonathan +Wilkes for Pd-extended 0.42 to conform to the PDDP template. Alex Cleveland +updated this patch for Pd-l2ork version 2013.05.28. Fred Jan Kraan +adapted the patch to pd-extended 2015-02-02; +#X restore 500 859 pd META; +#X obj 0 569 cnv 3 550 3 empty empty outlets 8 12 0 13 -228856 -1 0 +; +#X obj 0 678 cnv 3 550 3 empty empty arguments 8 12 0 13 -228856 -1 +0; +#X obj 0 735 cnv 3 550 3 empty empty more_info 8 12 0 13 -228856 -1 +0; +#N canvas 317 494 428 109 Related_objects 0; +#X obj 0 0 cnv 15 425 20 empty empty empty 3 12 0 14 -204280 -1 0; +#X text 6 1 Related Objects; +#X restore 196 859 pd Related_objects; +#X obj 79 462 cnv 17 3 17 empty empty 0 5 9 0 16 -228856 -162280 0 +; +#X obj 79 578 cnv 17 3 17 empty empty 0 5 9 0 16 -228856 -162280 0 +; +#X obj 0 0 cnv 15 552 40 empty empty svf~ 3 12 0 18 -204280 -1 0; +#X obj 492 9 svf~; +#X text 13 24 state-variable filter; +#X obj 79 529 cnv 17 3 33 empty empty 2 5 9 0 16 -228856 -162280 0 +; +#X text 107 462 signal; +#X text 179 462 - signal to filter; +#X text 107 528 signal; +#X text 107 546 float; +#X text 107 486 signal; +#X text 107 503 float; +#X text 179 494 - set cutoff frequency; +#X text 179 536 - set resonance (0-1); +#X obj 79 487 cnv 17 3 33 empty empty 1 5 9 0 16 -228856 -162280 0 +; +#X obj 79 603 cnv 17 3 17 empty empty 1 5 9 0 16 -228856 -162280 0 +; +#X obj 79 626 cnv 17 3 17 empty empty 2 5 9 0 16 -228856 -162280 0 +; +#X text 90 689 1) float; +#X text 90 711 2) float; +#X text 107 816 Floats or signals can modify these in real-time. The +value of these parameters is only sampled once per signal vector.; +#X text 107 770 One of its advantages is that the it produces low-pass +\, high-pass \, band-pass \, and band-reject (notch) output simultaneously +- so all four are available in parallel.; +#X text 107 742 svf~ implements Chamberlin's state-variable filter +algorithm.; +#N canvas 541 341 446 460 svf_part2 0; +#X text 68 324 onepole~.help contains yet another example.; +#X text 68 400 svf~ accepts arguments or max messages to change the frequency input mode. it is generally recommended to set the mode with an argument and leave it constant \, to avoid confusion.; -#X text -1 244 try sweeping the cutoff frequency in linear mode \, +#X text 68 262 try sweeping the cutoff frequency in linear mode \, then in radians mode \, to appreciate the difference. a similar principle operates in the amplitude domain \, where exponential audio faders are used to match our logarithmic perception of loudness.; -#X text -51 134 linear; -#X text -27 81 Hz; -#X text -1 177 in this mode \, input values from (0 -> 1) are interpreted +#X text 18 152 linear; +#X text 42 99 Hz; +#X text 68 195 in this mode \, input values from (0 -> 1) are interpreted as radians \, producing a quarter-cycle sinusoidal mapping to cutoff frequencies. this conforms the frequency mapping to a response that is closer to our logarithmic perception of pitch.; -#X text -1 125 this mode is essentially the same \, but with a normalized +#X text 68 143 this mode is essentially the same \, but with a normalized input range. linear input values from (0 -> 1) are mapped to cutoff frequencies in the effective range \, (0 -> fs/4).; -#X text -1 72 this is the default mode. input values set the cutoff +#X text 68 90 this is the default mode. input values set the cutoff frequency directly. therefore \, the input range is the same as the cutoff frequency (0 -> fs/4) \, and response is linear.; -#X text -1 9 svf~ has three different modes for mapping input values +#X text 68 27 svf~ has three different modes for mapping input values onto cutoff frequency. these are mainly for convenience \, but they may also improve efficiency slightly.; -#X text -1 329 since svf~ only samples its control inputs once per +#X text 68 347 since svf~ only samples its control inputs once per vector \, it is more efficient to use the radians mode than to do logarithmic scaling outside the object at audio rate.; -#X text -59 191 radians; -#X restore 617 344 pd svf_part2; -#X text 16 12 state-variable filter; -#X text 8 273 special thanks to 2up; -#X msg 379 81 0.5; -#X text 545 118 frequency range is 0 - f(s)/4; -#X obj 409 151 noise~; -#X text 8 158 Floats or signals can modify these in real-time. The -value of these parameters is only sampled once per signal vector.; -#X text 8 138 Arguments are cutoff frequency (Hz) \, and resonance -(0-1).; -#X text 8 93 One of its advantages is that the it produces low-pass -\, high-pass \, band-pass \, and band-reject (notch) output simultaneously -- so all four are available in parallel.; -#X text 8 65 svf~ implements Chamberlin's state-variable filter algorithm. -; -#X msg 422 86 37; -#X text 553 164 left: (signal) filter input; -#X text 527 254 outputs: lowpass \, highpass \, bandpass \, notch; -#X text 553 192 right: (signal/float) resonance (0 - 1); -#X text 553 178 middle: (signal/float) cutoff frequency; -#X obj 346 25 loadbang; -#X obj 458 106 * 11025; -#X obj 458 85 / 512; -#X floatatom 458 127 0 0 0 0 - - -; -#N canvas 40 55 716 389 svf_algorithm 0; -#X text 242 290 bandstop = lowpass + hipass \;; -#X text 59 179 this is the dsp loop. note how the calculations work +#X text 10 209 radians; +#X obj 3 3 cnv 15 425 20 empty empty empty 3 12 0 14 -204280 -1 0; +#X text 8 4 svf~ modes; +#X restore 433 382 pd svf_part2; +#X msg 226 170 0.5; +#X text 191 83 frequency range is 0 - f(s)/4; +#X obj 109 56 noise~; +#X msg 143 110 37; +#X text 262 352 outputs: lowpass \, highpass \, bandpass \, notch; +#X obj 131 83 loadbang; +#X obj 143 173 * 11025; +#X obj 143 152 / 512; +#X floatatom 143 194 0 0 0 0 - - -; +#N canvas 542 410 438 271 svf_algorithm 0; +#X text 150 216 bandstop = lowpass + hipass \;; +#X text 3 105 this is the dsp loop. note how the calculations work together to produce all four outputs simultaneously.; -#X text 62 123 first \, convert hz to radians (this step is not necessary +#X text 6 49 first \, convert hz to radians (this step is not necessary in radians input mode); -#X text 44 82 this is the basic algorithm inside svf~:; -#X text 237 137 cf_radians = sin(2. * PI * cf_hz * x->ifs) \;; -#X text 242 258 bandpass = bandpass + cf_radians * hipass \;; -#X text 242 242 hipass = in_samp - lowpass - q * bandpass \;; -#X text 242 226 lowpass = lowpass + (cf_radians * bandpass) \;; -#X text 242 274 bandpass = bandpass - (bandpass ^ 3.) * 0.0001 \;; -#X restore 499 344 pd svf_algorithm; -#X text 8 240 (float) resonance (0-1); -#X text 8 226 (float) cutoff frequency (Hz); -#X text 8 212 arguments (optional):; -#X obj 526 201 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0 +#X text 159 71 cf_radians = sin(2. * PI * cf_hz * x->ifs) \;; +#X text 150 184 bandpass = bandpass + cf_radians * hipass \;; +#X text 150 168 hipass = in_samp - lowpass - q * bandpass \;; +#X text 150 152 lowpass = lowpass + (cf_radians * bandpass) \;; +#X text 150 200 bandpass = bandpass - (bandpass ^ 3.) * 0.0001 \;; +#X obj 3 4 cnv 15 425 20 empty empty empty 3 12 0 14 -204280 -1 0; +#X text 6 32; +#X text 6 5 the basic algorithm inside svf~; +#X restore 315 382 pd svf_algorithm; +#X obj 246 330 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0 1; -#X obj 493 201 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0 +#X obj 207 330 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0 1; -#X obj 460 201 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0 +#X obj 168 330 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0 1; -#X obj 427 201 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 1 +#X obj 131 330 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 1 1; -#X obj 508 219 *~ 0; -#X obj 475 219 *~ 0; -#X obj 442 219 *~ 0; -#X obj 409 219 *~ 0; -#X floatatom 507 151 0 0 0 0 - - -; -#X obj 409 175 svf~ 797 0.5; -#X obj 409 269 *~ 0.7; -#X obj 464 54 hsl 128 15 0 127 0 0 empty empty empty -2 -8 0 10 -262144 +#X obj 225 352 *~ 0; +#X obj 186 352 *~ 0; +#X obj 147 352 *~ 0; +#X obj 110 352 *~ 0; +#X floatatom 226 193 0 0 0 0 - - -; +#X obj 146 132 hsl 128 15 0 127 0 0 empty empty empty -2 -8 0 10 -262144 -1 -1 3700 1; -#N canvas 511 83 494 469 META 0; -#X text 12 255 HELP_PATCH_AUTHORS Christoph Kummerer. Revised by Jonathan -Wilkes for Pd-extended 0.42 to conform to the PDDP template.; -#X text 12 225 WEBSITE http://suita.chopin.edu.pl/~czaja/miXed/externs/cyclone.html +#X text 107 578 signal; +#X text 179 578 - lowpass signal; +#X text 107 603 signal; +#X text 179 603 - highpass signal; +#X text 107 626 signal; +#X text 179 626 - bandpass signal; +#X obj 79 651 cnv 17 3 17 empty empty 3 5 9 0 16 -228856 -162280 0 ; -#X text 12 5 KEYWORDS signal filter max_compatible; -#X text 12 65 INLET_0 signal; -#X text 12 85 INLET_1 signal; -#X text 12 105 INLET_2 signal; -#X text 12 125 OUTLET_0 signal; -#X text 12 145 OUTLET_1 signal; -#X text 12 165 OUTLET_2 signal; -#X text 12 185 OUTLET_3 signal; -#X text 12 45 DESCRIPTION state-variable filter; -#X text 12 205 AUTHOR Krzysztof Czaja; -#X text 12 25 LICENSE SIBSD; -#X restore 751 344 pd META; -#X connect 4 0 32 0; -#X connect 6 0 33 0; -#X connect 11 0 35 0; -#X connect 16 0 4 0; -#X connect 16 0 11 0; -#X connect 16 0 27 0; -#X connect 17 0 19 0; -#X connect 18 0 17 0; -#X connect 19 0 33 1; -#X connect 24 0 28 1; -#X connect 25 0 29 1; -#X connect 26 0 30 1; -#X connect 27 0 31 1; -#X connect 28 0 34 0; -#X connect 29 0 34 0; -#X connect 30 0 34 0; -#X connect 31 0 34 0; -#X connect 32 0 33 2; -#X connect 33 0 31 0; -#X connect 33 1 30 0; -#X connect 33 2 29 0; -#X connect 33 3 28 0; -#X connect 34 0 0 0; -#X connect 34 0 0 1; -#X connect 35 0 18 0; +#X text 107 651 signal; +#X text 179 651 - notch signal; +#X text 179 686 - initial cutoff frequency (Hz); +#X text 179 710 - initial resonance (0-1); +#X obj 109 381 *~ 0.7; +#X obj 109 410 output~; +#X obj 109 261 cyclone/svf~ 797 0.5; +#X connect 30 0 48 0; +#X connect 32 0 63 0; +#X connect 33 0 49 0; +#X connect 35 0 30 0; +#X connect 35 0 33 0; +#X connect 35 0 43 0; +#X connect 36 0 38 0; +#X connect 37 0 36 0; +#X connect 38 0 63 1; +#X connect 40 0 44 1; +#X connect 41 0 45 1; +#X connect 42 0 46 1; +#X connect 43 0 47 1; +#X connect 44 0 61 0; +#X connect 45 0 61 0; +#X connect 46 0 61 0; +#X connect 47 0 61 0; +#X connect 48 0 63 2; +#X connect 49 0 37 0; +#X connect 61 0 62 0; +#X connect 61 0 62 1; +#X connect 63 0 47 0; +#X connect 63 1 46 0; +#X connect 63 2 45 0; +#X connect 63 3 44 0; |