sorted helpfiles

help/fluid.bufmfcc-help.pd

@@ -1,157 +1,9 @@
 #N canvas 37 74 706 910 12;
-#X obj 983 195 soundfiler;
-#X obj 962 19 cnv 15 100 10 empty empty fluid.bufmfcc 20 12 0 36 #fcfcfc
-#404040 0;
-#X obj 984 156 loadbang;
-#X obj 1329 98 bng 15 250 50 0 empty empty empty 17 7 0 10 #fcfcfc
-#000000 #000000;
-#X obj 1084 257 dac~;
-#X obj 1083 216 bng 15 250 50 0 empty empty empty 17 7 0 10 #fcfcfc
-#000000 #000000;
-#X msg 1102 215 stop;
-#N canvas 805 51 707 604 multichannel 0;
-#X obj 46 510 loadbang;
-#X obj 46 559 soundfiler;
-#X obj 48 80 bng 15 250 50 0 empty empty empty 17 7 0 10 #fcfcfc #000000
-#000000;
-#X obj 48 195 dac~;
-#X obj 45 242 bng 15 250 50 0 empty empty empty 17 7 0 10 #fcfcfc #000000
-#000000;
-#X obj 122 153 bng 15 250 50 0 empty empty empty 17 7 0 10 #fcfcfc
-#000000 #000000;
-#X text 67 80 1) compose an artificially wide "stereo" array;
-#X text 46 11 "multichannel" arrays will process each channel in turn
-\, and output 'channels' will be consecutive \, i.e. all features of
-"channel" 1 \, then all features of "channel" 2 \, etc, f 87;
-#X text 146 152 2) listen to the source;
-#X msg 48 152 stop;
-#X text 64 241 3) process;
-#X obj 48 100 fluid.bufcompose -source bufmfccguitar -startframe 555000
--numframes 468335 -deststartchan 1 -destination bufmfcc_source, f
-73;
-#X obj 48 174 tabplay~ bufmfcc_source-0;
-#X obj 211 175 tabplay~ bufmfcc_source-1;
-#X obj 45 259 fluid.bufmfcc 6 -source bufmfcc_source -features bufmfcc_feats
-, f 84;
-#X obj 115 559 array define bufmfccguitar;
-#X obj 287 559 clone fluid.multiarray 2 bufmfcc_source;
-#X msg 46 529 read -resize media/Tremblay-SA-UprightPianoPedalWide.wav
-bufmfcc_source-0 bufmfcc_source-1 \, read -resize media/Tremblay-AaS-AcousticStrums-M.wav
-bufmfccguitar, f 90;
-#X text 44 450 4) Look in the main window: since we have requested
-6 MFCC coefficients on a stereo buffer \, the first 6 feats arrays
-are the left channel's coefficients \, and the following 6 feats are
-the right channel melbands., f 100;
-#X msg 45 277 \; bufmfcc_feats-0 xticks 0 0 0 \; bufmfcc_feats-1 xticks
-0 0 0 \; bufmfcc_feats-2 xticks 0 0 0 \; bufmfcc_feats-3 xticks 0 0
-0 \; bufmfcc_feats-4 xticks 0 0 0 \; bufmfcc_feats-5 xticks 0 0 0 \;
-bufmfcc_feats-6 xticks 0 0 0 \; bufmfcc_feats-7 xticks 0 0 0 \; bufmfcc_feats-8
-xticks 0 0 0 \; bufmfcc_feats-9 xticks 0 0 0 \; bufmfcc_feats-10 xticks
-0 0 0 \; bufmfcc_feats-11 xticks 0 0 0 \; bufmfcc_feats-12 const;
-#X connect 0 0 17 0;
-#X connect 2 0 11 0;
-#X connect 4 0 14 0;
-#X connect 5 0 12 0;
-#X connect 5 0 13 0;
-#X connect 9 0 12 0;
-#X connect 9 0 13 0;
-#X connect 12 0 3 0;
-#X connect 13 0 3 1;
-#X connect 14 0 19 0;
-#X connect 17 0 1 0;
-#X restore 1774 161 pd multichannel;
-#X msg 984 176 read -resize media/Nicol-LoopE-M.wav bufmfcc_drums;
-#X obj 1084 236 tabplay~ bufmfcc_drums;
-#X msg 1329 136 \; bufmfcc_feats-0 xticks 0 0 0 \; bufmfcc_feats-1
-xticks 0 0 0 \; bufmfcc_feats-2 xticks 0 0 0 \; bufmfcc_feats-3 xticks
-0 0 0 \; bufmfcc_feats-4 xticks 0 0 0 \; bufmfcc_feats-5 xticks 0 0
-0 \; bufmfcc_feats-6 xticks 0 0 0 \; bufmfcc_feats-7 xticks 0 0 0 \;
-bufmfcc_feats-8 xticks 0 0 0 \; bufmfcc_feats-9 xticks 0 0 0 \; bufmfcc_feats-10
-xticks 0 0 0 \; bufmfcc_feats-11 xticks 0 0 0 \; bufmfcc_feats-12 xticks
-0 0 0;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-0 915 float 0;
-#X coords 0 300 914 -300 887 30 1 0 0;
-#X restore 981 367 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_drums 453932 float 0;
-#X coords 0 0.5 453931 -0.5 887 53 1 0 0;
-#X restore 981 299 graph;
-#X obj 1329 117 fluid.bufmfcc 13 -source bufmfcc_drums -features bufmfcc_feats
-, f 63;
-#X obj 1732 185 note_on_sampling_rates;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-1 915 float 0;
-#X coords 0 200 914 -200 887 30 1 0 0;
-#X restore 981 410 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-2 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 453 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-3 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 496 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-4 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 539 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-5 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 582 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-6 915 float 0;
-#X coords 0 300 914 -300 887 30 1 0 0;
-#X restore 981 625 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-7 915 float 0;
-#X coords 0 200 914 -200 887 30 1 0 0;
-#X restore 981 668 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-8 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 711 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-9 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 754 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-10 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 797 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-11 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 840 graph;
-#N canvas 0 22 450 278 (subpatch) 0;
-#X array bufmfcc_feats-12 915 float 0;
-#X coords 0 100 914 -100 887 30 1 0 0;
-#X restore 981 883 graph;
-#N canvas 0 23 450 300 (subpatch) 0;
-#X obj 83 51 inlet;
-#X obj 83 89 pdcontrol;
-#X msg 83 71 dir 0 docs/fluid.bufmfcc.html;
-#X msg 143 89 browse \$1;
-#X connect 0 0 2 0;
-#X connect 1 0 3 0;
-#X connect 2 0 1 0;
-#X connect 3 0 1 0;
-#X restore 1841 258 pd;
-#X text 1710 239 launch the HTML doc->;
-#X obj 1842 241 bng 15 250 50 0 empty empty empty 17 7 0 10 #fcfcfc
-#000000 #000000;
-#X obj 1732 209 note_on_multithreading;
-#X obj 17 13 cnv 15 660 42 empty empty fluid.bufmfcc 1 22 0 36 #4ba3fb
-#ffffff 0;
-#X obj 435 478 cnv 15 235 90 empty empty More\\\ information 4 10 0
-13 #e0e0e0 #404040 0;
-#X obj 509 60 fluid.referencelauncher fluid.bufmfcc.html reference/bufmfcc/
-;
-#X obj 17 60 cnv 15 488 17 empty empty Mel-Frequency\\\ Cepstral\\\ Coefficients\\\ as\\\ Spectral
-4 8 0 13 #e0e0e0 #404040 0;
-#X text 17 109 A classic timbral spectral descriptor \, the Mel-Frequency
-Cepstral Coefficients (MFCCs).;
+#X obj 17 13 cnv 15 660 42 empty empty fluid.bufmfcc 1 22 0 36 #4ba3fb #ffffff 0;
+#X obj 435 478 cnv 15 235 90 empty empty More\ information 4 10 0 13 #e0e0e0 #404040 0;
+#X obj 509 60 fluid.referencelauncher fluid.bufmfcc.html reference/bufmfcc/;
+#X obj 17 60 cnv 15 488 17 empty empty Mel-Frequency\ Cepstral\ Coefficients\ as\ Spectral 4 8 0 13 #e0e0e0 #404040 0;
+#X text 17 109 A classic timbral spectral descriptor \, the Mel-Frequency Cepstral Coefficients (MFCCs).;
 #N canvas 1376 -757 448 179 loadsrc 0;
 #X obj 16 83 soundfiler;
 #X obj 16 19 loadbang;
@@ -162,10 +14,8 @@ Cepstral Coefficients (MFCCs).;
 #X connect 3 0 0 0;
 #X restore 21 201 pd loadsrc;
 #X obj 21 573 fluid.waveform 650 300 1 empty empty 0;
-#X obj 60 306 bng 15 250 50 0 empty empty empty 17 7 0 10 #c6ffc7 #000000
-#000000;
-#X obj 84 306 cnv 15 15 15 empty empty empty 20 12 0 14 #c6ffc7 #404040
-0;
+#X obj 60 306 bng 15 250 50 0 empty empty empty 17 7 0 10 #c6ffc7 #000000 #000000;
+#X obj 84 306 cnv 15 15 15 empty empty empty 20 12 0 14 #c6ffc7 #404040 0;
 #N canvas 1493 23 535 646 parameters 0;
 #X floatatom 185 146 8 0 0 0 - - - 0;
 #X floatatom 185 125 8 0 0 0 - - - 0;
@@ -213,15 +63,11 @@ Cepstral Coefficients (MFCCs).;
 #X obj 29 950 outlet;
 #X obj 29 145 s \$0-params;
 #X text 152 148 for hopsize \, -1 = windowsize/2, f 26;
-#X text 153 100 window size (1024) \, hop size (-1) \, fft size (-1)
-, f 26;
-#X text 152 189 for fftsize \, -1 = windowsize snapped to nearest power
-of 2, f 26;
-#X obj 29 74 cnv 10 310 2 empty empty empty 20 12 0 14 #bbbbbb #404040
-0;
+#X text 153 100 window size (1024) \, hop size (-1) \, fft size (-1), f 26;
+#X text 152 189 for fftsize \, -1 = windowsize snapped to nearest power of 2, f 26;
+#X obj 29 74 cnv 10 310 2 empty empty empty 20 12 0 14 #bbbbbb #404040 0;
 #X text 27 54 FFT settings;
-#X obj 27 565 cnv 10 233 2 empty empty empty 20 12 0 14 #bbbbbb #404040
-0;
+#X obj 27 565 cnv 10 233 2 empty empty empty 20 12 0 14 #bbbbbb #404040 0;
 #X msg 29 102 fftsettings 1024 -1 1, f 12;
 #X text 25 545 Warnings;
 #X obj 28 644 s \$0-params;
@@ -232,8 +78,7 @@ of 2, f 26;
 #X obj 29 285 s \$0-params;
 #X msg 29 262 maxfftsize -1;
 #X text 28 6 Optional parameters to fluid.noveltyfeature~;
-#X obj 417 75 cnv 10 233 2 empty empty empty 20 12 0 14 #bbbbbb #404040
-0;
+#X obj 417 75 cnv 10 233 2 empty empty empty 20 12 0 14 #bbbbbb #404040 0;
 #X obj 415 131 s \$0-params;
 #X obj 415 201 s \$0-params;
 #X obj 415 271 s \$0-params;
@@ -260,29 +105,19 @@ of 2, f 26;
 #X msg 415 386 startcoeff 0;
 #X obj 415 971 s \$0-params;
 #X msg 415 947 startframe 0;
-#X text 557 170 destination buffer to write the MFCC analysis into
-, f 38;
-#X text 557 100 index of the buffer to use as the source material to
-be analysed, f 38;
+#X text 557 170 destination buffer to write the MFCC analysis into, f 38;
+#X text 557 100 index of the buffer to use as the source material to be analysed, f 38;
 #X text 557 240 number of cepstral coefficients to return, f 38;
 #X text 557 310 maximum value for numcoeffs, f 38;
-#X text 554 379 lowest index of the output cepstral coefficients to
-return \, zero-counting, f 39;
-#X text 557 440 lower bound of the frequency band to use in analysis
-\, in Hz, f 39;
-#X text 557 510 upper bound of the frequency band to use in analysis
-\, in Hz, f 39;
-#X text 557 580 number of bands that will be perceptually equally distributed
-between minfreq and maxfreq, f 39;
-#X text 557 650 for a multichannel srcbuf \, how many channels to process
-, f 39;
-#X text 557 720 for a multichannel srcbuf \, which channel should be
-processed first, f 39;
+#X text 554 379 lowest index of the output cepstral coefficients to return \, zero-counting, f 39;
+#X text 557 440 lower bound of the frequency band to use in analysis \, in Hz, f 39;
+#X text 557 510 upper bound of the frequency band to use in analysis \, in Hz, f 39;
+#X text 557 580 number of bands that will be perceptually equally distributed between minfreq and maxfreq, f 39;
+#X text 557 650 for a multichannel srcbuf \, how many channels to process, f 39;
+#X text 557 720 for a multichannel srcbuf \, which channel should be processed first, f 39;
 #X text 557 800 How many frames to analyse, f 39;
-#X text 557 870 controls the zero-padding added to either end of the
-source buffer or segment, f 39;
-#X text 557 940 Where in the srcbuf the analysis should start \, in
-samples, f 39;
+#X text 557 870 controls the zero-padding added to either end of the source buffer or segment, f 39;
+#X text 557 940 Where in the srcbuf the analysis should start \, in samples, f 39;
 #X connect 0 0 1 0;
 #X connect 9 0 2 0;
 #X connect 12 0 11 0;
@@ -303,53 +138,40 @@ samples, f 39;
 #X connect 45 0 44 0;
 #X restore 270 442 pd parameters;
 #X obj 490 201 array define help.mfcc.src;
-#X obj 60 486 fluid.bufmfcc 13 -source help.mfcc.src -features help.mfcc.features
-;
-#X obj 483 222 clone fluid.multiarray 13 help.mfcc.features, f 27
-;
+#X obj 60 486 fluid.bufmfcc 13 -source help.mfcc.src -features help.mfcc.features;
+#X obj 483 222 clone fluid.multiarray 13 help.mfcc.features, f 27;
 #X text 85 305 1) start MFCC analysis;
 #N canvas 88 48 705 855 multichannel 0;
-#X obj 17 13 cnv 15 660 42 empty empty fluid.bufmfcc 1 22 0 36 #4ba3fb
-#ffffff 0;
+#X obj 17 13 cnv 15 660 42 empty empty fluid.bufmfcc 1 22 0 36 #4ba3fb #ffffff 0;
 #X text 19 83 multichannel processing with fluid.bufmfcc~;
 #X obj 490 181 clone fluid.multiarray 2 help.mfcc.src.2, f 26;
 #N canvas 1376 23 447 162 loadsrc 0;
 #X obj 16 83 soundfiler;
 #X obj 16 19 loadbang;
-#X msg 16 41 read -resize media/Tremblay-SA-UprightPianoPedalWide.wav
-help.mfcc.src.2-0 help.mfcc.src.2-1;
+#X msg 16 41 read -resize media/Tremblay-SA-UprightPianoPedalWide.wav help.mfcc.src.2-0 help.mfcc.src.2-1;
 #X connect 1 0 2 0;
 #X connect 2 0 0 0;
 #X restore 21 127 pd loadsrc;
-#X obj 26 306 bng 15 250 50 0 empty empty empty 17 7 0 10 #c6ffc7 #000000
-#000000;
-#X obj 50 306 cnv 15 15 15 empty empty empty 20 12 0 14 #c6ffc7 #404040
-0;
+#X obj 26 306 bng 15 250 50 0 empty empty empty 17 7 0 10 #c6ffc7 #000000 #000000;
+#X obj 50 306 cnv 15 15 15 empty empty empty 20 12 0 14 #c6ffc7 #404040 0;
 #X text 51 305 1) start analysis;
-#X obj 26 326 fluid.bufmfcc 3 -source help.mfcc.src.2 -features help.mfcc.features.2
-;
+#X obj 26 326 fluid.bufmfcc 3 -source help.mfcc.src.2 -features help.mfcc.features.2;
 #X obj 26 444 fluid.waveform 510 243 1 empty empty 0;
-#X text 406 290 The fluid.bufmfcc~ object above only returns 3 MFCC
-coefficients. The buffer~ with the analysis is 6 channels \, because
-it calculates 3 channels per channel in the input buffer \, which in
-this case is stereo., f 38;
+#X text 406 290 The fluid.bufmfcc~ object above only returns 3 MFCC coefficients. The buffer~ with the analysis is 6 channels \, because it calculates 3 channels per channel in the input buffer \, which in this case is stereo., f 38;
 #X text 498 400 The layout is as follows:;
 #X text 568 441 MFCC 0 - L;
 #X text 568 461 MFCC 1 - L;
 #X text 568 481 MFCC 2 - L;
 #X text 568 501 MFCC 0 - R;
 #X text 568 521 MFCC 1 - R;
 #X text 568 541 MFCC 2 - R;
-#X obj 513 706 bng 15 250 50 0 empty empty empty 17 7 0 10 #c6ffc7
-#000000 #000000;
+#X obj 513 706 bng 15 250 50 0 empty empty empty 17 7 0 10 #c6ffc7 #000000 #000000;
 #X obj 358 733 tabplay~ help.mfcc.src.2-0, f 20;
 #X obj 485 780 fluid.out~ bufmfcchelp;
 #X obj 514 735 tabplay~ help.mfcc.src.2-0, f 20;
 #X text 534 702 Listen to the source if you want, f 18;
-#X obj 483 222 clone fluid.multiarray 6 help.mfcc.features.2, f 27
-;
-#X msg 26 364 waveformcolor #aaaaaa \, waveform help.mfcc.src.2 \,
-features help.mfcc.features.2, f 48;
+#X obj 483 222 clone fluid.multiarray 6 help.mfcc.features.2, f 27;
+#X msg 26 364 waveformcolor #aaaaaa \, waveform help.mfcc.src.2 \, features help.mfcc.features.2, f 48;
 #X connect 4 0 7 0;
 #X connect 7 0 23 0;
 #X connect 17 0 18 0;
@@ -359,24 +181,14 @@ features help.mfcc.features.2, f 48;
 #X connect 23 0 8 0;
 #X restore 448 498 pd multichannel;
 #X obj 448 542 note_on_multithreading;
-#X obj 17 78 cnv 15 488 17 empty empty Descriptors\\\ on\\\ a\\\ Buffer
-4 8 0 13 #e0e0e0 #404040 0;
+#X obj 17 78 cnv 15 488 17 empty empty Descriptors\ on\ a\ Buffer 4 8 0 13 #e0e0e0 #404040 0;
 #X obj 448 520 note_on_automatic_multiarrays;
 #X msg 60 524 features help.mfcc.features;
 #X msg 21 225 waveformcolor #666666 \, waveform help.mfcc.src;
-#X connect 2 0 8 0;
-#X connect 3 0 13 0;
-#X connect 5 0 9 0;
-#X connect 6 0 9 0;
-#X connect 8 0 0 0;
-#X connect 9 0 4 0;
-#X connect 9 0 4 1;
-#X connect 13 0 10 0;
-#X connect 29 0 27 0;
-#X connect 36 0 52 0;
-#X connect 38 0 44 0;
-#X connect 40 0 44 0;
-#X connect 42 0 44 0;
-#X connect 44 0 51 0;
-#X connect 51 0 37 0;
-#X connect 52 0 37 0;
+#X connect 5 0 21 0;
+#X connect 7 0 13 0;
+#X connect 9 0 13 0;
+#X connect 11 0 13 0;
+#X connect 13 0 20 0;
+#X connect 20 0 6 0;
+#X connect 21 0 6 0;

help/fluid.bufnmf-help.pd

@@ -1,4 +1,4 @@
-#N canvas 36 25 692 790 12;
+#N canvas 36 25 692 887 12;
 #X obj 458 670 cnv 15 215 196 empty empty More\ information 4 10 0 13 #e0e0e0 #404040 0;
 #N canvas 299 199 689 856 fixed_bases 0;
 #X obj 15 13 cnv 15 660 42 empty empty fluid.bufnmf 1 22 0 36 #4ba3fb #ffffff 0;

help/fluid.bufonsetslice-help.pd

@@ -1,10 +1,10 @@
-#N canvas 27 25 697 798 12;
+#N canvas 116 59 697 892 12;
 #X obj 16 18 cnv 15 660 42 empty empty fluid.bufonsetslice 1 22 0 36 #4ba3fb #ffffff 0;
 #X obj 463 791 cnv 15 212 88 empty empty More\ information 4 10 0 13 #e0e0e0 #404040 0;
 #X obj 508 65 fluid.referencelauncher fluid.bufonsetslice.html reference/bufonsetslice/;
 #X obj 16 65 cnv 15 488 17 empty empty Spectral\ Difference-Based\ Audio\ Buffer\ Slicer 4 8 0 13 #e0e0e0 #404040 0;
 #X text 16 84 Implements a selection of spectrum-based onset slicers;
-#N canvas 1955 -858 448 179 loadsrc 0;
+#N canvas 1551 -858 448 179 loadsrc 0;
 #X obj 16 83 soundfiler;
 #X obj 16 19 inlet;
 #X msg 16 41 read -resize \$1 help.bufonset.src;
@@ -149,7 +149,7 @@
 #X obj 226 330 r src;
 #X msg 226 364 set \$1;
 #X listbox 226 392 20 0 0 0 - - - 0;
-#X obj 37 391 tabplay~ thesource;
+#X obj 37 391 tabplay~ help.bufonset.src;
 #X connect 1 0 2 0;
 #X connect 2 0 11 0;
 #X connect 4 0 8 0;
@@ -425,7 +425,7 @@
 #X obj 30 352 r src;
 #X msg 320 535 waveform \$1;
 #X obj 30 503 fluid.bufonsetslice -indices help.bufonset2.slices, f 32;
-#N canvas 1013 -1015 1368 693 fetch_settings 0;
+#N canvas 631 -1015 1368 693 fetch_settings 0;
 #X floatatom 509 206 8 0 0 0 - - - 0;
 #X floatatom 394 206 8 0 0 0 - - - 0;
 #X floatatom 653 206 8 0 0 0 - - - 0;
@@ -518,7 +518,7 @@
 #X obj 427 731 fluid.out~ bufnoveltyslicehelp;
 #X obj 499 736 cnv 15 15 15 empty empty empty 20 12 0 14 #c6ffc7 #404040 0;
 #X floatatom 426 643 5 0 0 0 - - - 0;
-#N canvas 1744 -1080 666 626 extract_slices 0;
+#N canvas 1333 -1080 666 626 extract_slices 0;
 #X obj 37 427 outlet~;
 #X obj 37 14 inlet;
 #X floatatom 37 45 5 0 0 0 - - - 0;

help/fluid.bufpitch-help.pd

@@ -1,4 +1,4 @@
-#N canvas 47 25 692 790 12;
+#N canvas 47 25 692 847 12;
 #X obj 17 13 cnv 15 660 42 empty empty fluid.bufpitch 1 22 0 36 #4ba3fb #ffffff 0;
 #X obj 509 60 fluid.referencelauncher fluid.bufpitch.html reference/pitch/;
 #X obj 458 715 cnv 15 215 115 empty empty More\ information 4 10 0 13 #e0e0e0 #404040 0;