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#X text 69 35 <-- chunk size (100ths of a second);
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#X floatatom 26 136 0 0 100 0 - - -;
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#X obj 26 186 pack 0 100;
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#X text 60 137 <-- read point in 100ths of a second;
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#X obj 76 408 samphold~;
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#X obj 20 308 samphold~;
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#X obj 185 369 r~ phase;
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#X obj 418 210 s~ phase;
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#X obj 108 308 r~ phase;
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#X obj 42 332 r~ phase;
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#X obj 96 383 r~ phase;
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#X text 189 58 chunk size;
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#X text 189 80 in seconds;
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#X obj 418 33 loadbang;
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#X obj 185 393 -~ 0.5;
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#X obj 185 417 *~ 0.5;
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#X obj 19 536 output~;
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#X text 486 684 updated for Pd version 0.37;
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#X obj 418 81 expr pow(2 \, $f1/120);
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#X text 607 81 speed change;
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#X obj 418 184 phasor~;
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#X text 18 5 TWO OVERLAPPING SAMPLE READ ELEMENTS;
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#X restore 442 61 graph;
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#X text 444 195 --- 44103 samples ---;
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#X obj 41 202 soundfiler;
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#X text 101 91 <-- record;
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#X text 134 155 v-- re-read original table;
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#X obj 45 118 tabwrite~ table22;
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#X msg 41 175 read ../sound/voice.wav table22;
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#X restore 567 327 pd table;
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#X obj 25 110 s chunk-size-samples;
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#X text 211 112 ... and in samples;
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#X obj 26 234 s~ read-pt;
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#X obj 77 360 r~ read-pt;
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#X obj 505 203 +~ 0.5;
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#X obj 506 254 s~ phase2;
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#X obj 20 283 r chunk-size-samples;
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#X obj 329 419 samphold~;
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#X obj 274 319 samphold~;
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#X obj 439 404 -~ 0.5;
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#X obj 439 428 *~ 0.5;
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#X obj 330 371 r~ read-pt;
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#X obj 274 294 r chunk-size-samples;
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#X obj 363 320 r~ phase2;
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#X obj 296 343 r~ phase2;
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#X obj 439 380 r~ phase2;
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#X obj 339 394 r~ phase2;
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#X text 453 56 <-- transposition \, halftones/10;
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#X text 456 159 loop frequency;
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#X text 566 190 second phase signal;
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#X text 566 210 out of phase from;
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#X text 565 231 first one;
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#X text 70 265 copy 1;
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#X text 327 274 copy 2;
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#X text 118 503 Here is the previous patch modified to use two copies
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of the sample reader \, 180 degrees out of phase. The second sawtooth
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signal is derived from the first one by adding a constant (0.5) and
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wrapping the result to fit again between zero and one. The result is
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#X text 119 584 The computation of "chunk-size-samples" (as a message)
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and "read-pt" (an audio signal) is the same for both copies and is
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separated out at top left. At top right is the same loop frequency
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calculation as before.;
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#X text 120 654 Finally \, the two copies' outputs are added and the
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result sent to the audio output.;
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#X obj 274 445 tabread4~ table22;
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doc/3.audio.examples/B13.sampler.overlap.pd
