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#X obj 317 175 *~;
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#X obj 368 382 atan2;
#X obj 267 302 snapshot~;
#X obj 341 301 snapshot~;
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#X obj 64 135 inlet;
#X obj 368 410 expr $f1 + 6.283 * ($f1 < -0.01);
#X obj 71 417 t b f b;
#X obj 448 457 symbol \$2;
#X obj 519 457 symbol;
#X obj 463 434 t b b;
#X obj 447 504 t b;
#X obj 474 505 t b;
#X msg 447 525 0;
#X msg 474 526 1;
#X obj 447 481 sel symbol;
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#X obj 318 135 inlet~;
#X obj 418 134 inlet~;
#X obj 374 495 f;
#X obj 368 442 spigot;
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#X obj 154 493 t f b;
#X obj 154 521 tabwrite \$1;
#X obj 333 520 tabwrite \$2;
#X obj 637 259 env~ 2048;
#X obj 311 362 f;
#X obj 267 324 t f f b;
#X obj 311 382 dbtopow;
#X obj 137 411 expr sqrt($f1*$f1 + $f2*$f2)/$f3;
#X obj 63 245 sel 0;
#X obj 87 270 - 1;
#X obj 64 156 unpack;
#X obj 117 157 expr 10000/$f1;
#X text 257 102 test sinusoid:;
#X text 272 116 cos;
#X text 325 115 sin;
#X text 397 97 output of filter;
#X text 398 113 we're testing;
#X text 31 103 index and time to next step;
#X text 39 82 ----- from filter-graph1's 3 outlets: -------;
#X text 117 193 low-pass filters;
#X text 118 177 cutoff freq. for;
#X obj 368 360 swap;
#X obj 620 215 t b;
#X text 583 184 clear filters;
#X text 582 198 to start;
#X text 578 452 cbeck if any table;
#X text 577 467 is specified for phase;
#X text 577 483 (don't compute it if;
#X text 578 498 not.);
#X text 31 3 filter-graph2: measures frequency and phase response of
a filter \, which should be driven by a "filter-graph1" object. We
need the three outputs of filter-graph1 \, plus the filter output.
;
#X text 438 55 1: table name for frequency response;
#X text 518 39 creation arguments:;
#X text 438 71 2 (optional): table name for phase response;
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