bode_shifter_cv_1432.xml

<?xml version="1.0"?>
<!DOCTYPE ladspa SYSTEM "ladspa-swh.dtd">
<?xml-stylesheet href="ladspa.css" type="text/css"?>

<ladspa>
  <global>
    <meta name="maker" value="Steve Harris &lt;steve@plugin.org.uk&gt;"/>
    <meta name="copyright" value="GPL"/>
    <meta name="properties" value="HARD_RT_CAPABLE"/>
    <code><![CDATA[

#include <math.h>

#include "ladspa-util.h"

#define SIN_T_SIZE 1024
#define D_SIZE 256
#define NZEROS 200

/* The non-zero taps of the Hilbert transformer */
static float xcoeffs[] = {
     +0.0008103736f, +0.0008457886f, +0.0009017196f, +0.0009793364f,
     +0.0010798341f, +0.0012044365f, +0.0013544008f, +0.0015310235f,
     +0.0017356466f, +0.0019696659f, +0.0022345404f, +0.0025318040f,
     +0.0028630784f, +0.0032300896f, +0.0036346867f, +0.0040788644f,
     +0.0045647903f, +0.0050948365f, +0.0056716186f, +0.0062980419f,
     +0.0069773575f, +0.0077132300f, +0.0085098208f, +0.0093718901f,
     +0.0103049226f, +0.0113152847f, +0.0124104218f, +0.0135991079f,
     +0.0148917649f, +0.0163008758f, +0.0178415242f, +0.0195321089f,
     +0.0213953037f, +0.0234593652f, +0.0257599469f, +0.0283426636f,
     +0.0312667947f, +0.0346107648f, +0.0384804823f, +0.0430224431f,
     +0.0484451086f, +0.0550553725f, +0.0633242001f, +0.0740128560f,
     +0.0884368322f, +0.1090816773f, +0.1412745301f, +0.1988673273f,
     +0.3326528346f, +0.9997730178f, -0.9997730178f, -0.3326528346f,
     -0.1988673273f, -0.1412745301f, -0.1090816773f, -0.0884368322f,
     -0.0740128560f, -0.0633242001f, -0.0550553725f, -0.0484451086f,
     -0.0430224431f, -0.0384804823f, -0.0346107648f, -0.0312667947f,
     -0.0283426636f, -0.0257599469f, -0.0234593652f, -0.0213953037f,
     -0.0195321089f, -0.0178415242f, -0.0163008758f, -0.0148917649f,
     -0.0135991079f, -0.0124104218f, -0.0113152847f, -0.0103049226f,
     -0.0093718901f, -0.0085098208f, -0.0077132300f, -0.0069773575f,
     -0.0062980419f, -0.0056716186f, -0.0050948365f, -0.0045647903f,
     -0.0040788644f, -0.0036346867f, -0.0032300896f, -0.0028630784f,
     -0.0025318040f, -0.0022345404f, -0.0019696659f, -0.0017356466f,
     -0.0015310235f, -0.0013544008f, -0.0012044365f, -0.0010798341f,
     -0.0009793364f, -0.0009017196f, -0.0008457886f, -0.0008103736f,
};
    ]]></code>
  </global>

  <plugin label="bodeShifterCV" id="1432" class="SpectralPlugin">
    <name>Bode frequency shifter (CV)</name>
    <p>See the non CV version for information.</p>
    <p>This is more or less a copy of the Doepfer A126, \url{http://www.doepfer.de/a126.htm}.</p>

    <callback event="instantiate"><![CDATA[
      unsigned int i;

      fs = (float)s_rate;

      delay = calloc(D_SIZE, sizeof(LADSPA_Data));
      sint  = calloc(SIN_T_SIZE + 4, sizeof(float));

      dptr = 0;
      phi = 0.0f;

      for (i = 0; i < SIN_T_SIZE + 4; i++) {
	sint[i] = sinf(2.0f * M_PI * (float)i / (float)SIN_T_SIZE);
      }
    ]]></callback>

    <callback event="run"><![CDATA[
      unsigned long pos;
      unsigned int i;
      float hilb, rm1, rm2;
      int int_p;
      float frac_p;
      const float freq_fix = (float)SIN_T_SIZE * 1000.0f * f_clamp(atten, 0.0f, 10.0f) / fs;
      const float base_ofs = (float)SIN_T_SIZE * f_clamp(shift_b, 0.0f, 10000.0f) / fs;
      const float mixc = mix * 0.5f + 0.5f;

      for (pos = 0; pos < sample_count; pos++) {
	delay[dptr] = input[pos];

	/* Perform the Hilbert FIR convolution
         * (probably FFT would be faster) */
        hilb = 0.0f;
        for (i = 0; i < NZEROS/2; i++) {
          hilb += (xcoeffs[i] * delay[(dptr - i*2) & (D_SIZE - 1)]);
        }

	/* Calcuate the table positions for the sine modulator */
	int_p = f_round(floor(phi));

	/* Calculate ringmod1, the transformed input modulated with a shift Hz
	 * sinewave. This creates a +180 degree sideband at source-shift Hz and
	 * a 0 degree sindeband at source+shift Hz */
	frac_p = phi - int_p;
	rm1 = hilb * 0.63661978f * cube_interp(frac_p, sint[int_p],
			sint[int_p+1], sint[int_p+2], sint[int_p+3]);

	/* Calcuate the table positions for the cosine modulator */
	int_p = (int_p + SIN_T_SIZE / 4) & (SIN_T_SIZE - 1);

	/* Calculate ringmod2, the delayed input modulated with a shift Hz
	 * cosinewave. This creates a 0 degree sideband at source+shift Hz
	 * and a -180 degree sindeband at source-shift Hz */
	rm2 = delay[(dptr - 99) & (D_SIZE - 1)] * cube_interp(frac_p,
	      sint[int_p], sint[int_p+1], sint[int_p+2], sint[int_p+3]);

	/* Output the sum and differences of the ringmods. The +/-180 degree
	 * sidebands cancel (more of less) and just leave the shifted
         * components */
        buffer_write(dout[pos], (rm2 - rm1) * 0.5f);
        buffer_write(uout[pos], (rm2 + rm1) * 0.5f);
        buffer_write(mixout[pos], (dout[pos] - uout[pos]) * mixc + uout[pos]);

	dptr = (dptr + 1) & (D_SIZE - 1);
	phi += f_clamp(shift[pos], 0.0f, 10.0f) * freq_fix + base_ofs;
	while (phi > SIN_T_SIZE) {
	  phi -= SIN_T_SIZE;
	}
      }

      plugin_data->dptr = dptr;
      plugin_data->phi = phi;

      *(plugin_data->latency) = 99;
    ]]></callback>

    <callback event="cleanup"><![CDATA[
      free(plugin_data->delay);
      free(plugin_data->sint);
    ]]></callback>

    <port label="shift_b" dir="input" type="control" hint="default_0">
      <name>Base shift</name>
      <range min="0" max="5000"/>
    </port>

    <port label="mix" dir="input" type="control" hint="default_0">
      <name>Mix (-1=down, +1=up)</name>
      <range min="-1" max="1"/>
    </port>

    <port label="input" dir="input" type="audio">
      <name>Input</name>
    </port>

    <port label="atten" dir="input" type="control" hint="default_maximum">
      <name>CV Attenuation</name>
      <range min="0" max="1"/>
    </port>

    <port label="shift" dir="input" type="audio" hint="default_0">
      <name>Shift CV</name>
      <p>Controls the frequency shift applied to the input signal, in KHz.</p>
      <range min="0" max="5"/>
    </port>

    <port label="dout" dir="output" type="audio">
      <name>Down out</name>
    </port>

    <port label="uout" dir="output" type="audio">
      <name>Up out</name>
    </port>

    <port label="mixout" dir="output" type="audio">
      <name>Mix out</name>
    </port>

    <port label="latency" dir="output" type="control">
      <name>latency</name>
    </port>

    <instance-data label="delay" type="LADSPA_Data *" />
    <instance-data label="dptr" type="unsigned int" />
    <instance-data label="phi" type="float" />
    <instance-data label="fs" type="float" />
    <instance-data label="sint" type="float *" />
  </plugin>
</ladspa>