From a0f8c026117d1bbe094894d614136efea4b65c97 Mon Sep 17 00:00:00 2001
From: "N.N." <krzyszcz@users.sourceforge.net>
Date: Thu, 14 Aug 2003 14:32:00 +0000
Subject: 10 new sickle classes

svn path=/trunk/externals/miXed/; revision=846
---
 cyclone/sickle/onepole.c | 151 +++++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 151 insertions(+)
 create mode 100644 cyclone/sickle/onepole.c

(limited to 'cyclone/sickle/onepole.c')

diff --git a/cyclone/sickle/onepole.c b/cyclone/sickle/onepole.c
new file mode 100644
index 0000000..f06b581
--- /dev/null
+++ b/cyclone/sickle/onepole.c
@@ -0,0 +1,151 @@
+/* Copyright (c) 2003 krzYszcz and others.
+ * For information on usage and redistribution, and for a DISCLAIMER OF ALL
+ * WARRANTIES, see the file, "LICENSE.txt," in this distribution.  */
+
+/* This is Pd's lop~ with signal-controlled cutoff. */
+
+/* CHECKED scalar case: input preserved (not coefs) after changing mode */
+/* CHECKME if creation arg (or a default) restored after signal disconnection */
+
+#include <math.h>
+#include "m_pd.h"
+#include "shared.h"
+#include "sickle/sic.h"
+
+#if defined(NT) || defined(MACOSX)
+/* cf pd/src/x_arithmetic.c */
+#define sinf  sin
+#endif
+
+#define ONEPOLE_HZ        0
+#define ONEPOLE_LINEAR    1
+#define ONEPOLE_RADIANS   2
+#define ONEPOLE_MINB0     .0001  /* CHECKED 1st term of ir for b0=0 */
+#define ONEPOLE_MAXB0     .99    /* CHECKED 1st term of ir for b0=1 */
+#define ONEPOLE_MINOMEGA  0.     /* CHECKME */
+#define ONEPOLE_MAXOMEGA  (SHARED_PI * .5)  /* CHECKME */
+
+typedef struct _onepole
+{
+    t_sic  x_sic;
+    int    x_mode;
+    float  x_srcoef;
+    float  x_ynm1;
+} t_onepole;
+
+static t_class *onepole_class;
+
+static t_symbol *ps_hz;
+static t_symbol *ps_linear;
+static t_symbol *ps_radians;
+
+static void onepole_clear(t_onepole *x)
+{
+    x->x_ynm1 = 0.;
+}
+
+static void onepole_hz(t_onepole *x)
+{
+    x->x_mode = ONEPOLE_HZ;
+}
+
+static void onepole_linear(t_onepole *x)
+{
+    x->x_mode = ONEPOLE_LINEAR;
+}
+
+static void onepole_radians(t_onepole *x)
+{
+    x->x_mode = ONEPOLE_RADIANS;
+}
+
+/* LATER make ready for optional audio-rate modulation
+   (separate scalar case routine, use sic_makecostable(), etc.) */
+static t_int *onepole_perform(t_int *w)
+{
+    t_onepole *x = (t_onepole *)(w[1]);
+    int nblock = (int)(w[2]);
+    t_float *xin = (t_float *)(w[3]);
+    t_float fin0 = *(t_float *)(w[4]);
+    t_float *out = (t_float *)(w[5]);
+    int mode = x->x_mode;
+    float ynm1 = x->x_ynm1;
+    /* CHECKME sampled once per block */
+    float b0;
+    if (mode == ONEPOLE_HZ)
+    {
+	float omega = fin0 * x->x_srcoef;
+	if (omega < ONEPOLE_MINOMEGA)
+	    omega = ONEPOLE_MINOMEGA;
+	else if (omega > ONEPOLE_MAXOMEGA)
+	    omega = ONEPOLE_MAXOMEGA;
+	/* The actual solution for a half-power cutoff is:
+	   b0 = sqrt(sqr(2-cos(omega))-1) + cos(omega) - 1.
+	   The sin(omega) below is only slightly better approximation than
+	   Miller's b0=omega, except for the two highest octaves (or so),
+	   where it is much better (but far from good). */
+	b0 = sinf(omega);
+    }
+    else if (mode == ONEPOLE_LINEAR)
+	b0 = sinf(fin0 * (SHARED_PI * .5));  /* CHECKME actual range of fin0 */
+    else
+	b0 = fin0;
+    if (b0 < ONEPOLE_MINB0)
+	b0 = ONEPOLE_MINB0;
+    else if (b0 > ONEPOLE_MAXB0)
+	b0 = ONEPOLE_MAXB0;
+    /* b0 is the standard 1-|a1| (where |a1| is pole's radius),
+       specifically: a1=b0-1 => a1 in [-.9999 .. -.01] => lowpass (stable) */
+    while (nblock--)
+	*out++ = ynm1 = b0 * (*xin++ - ynm1) + ynm1;
+    x->x_ynm1 = (PD_BADFLOAT(ynm1) ? 0. : ynm1);
+    return (w + 6);
+}
+
+static void onepole_dsp(t_onepole *x, t_signal **sp)
+{
+    x->x_srcoef = SHARED_2PI / sp[0]->s_sr;
+    onepole_clear(x);
+    dsp_add(onepole_perform, 5, x, sp[0]->s_n,
+	    sp[0]->s_vec, sp[1]->s_vec, sp[2]->s_vec);
+}
+
+static void *onepole_new(t_symbol *s, t_floatarg f)
+{
+    t_onepole *x = (t_onepole *)pd_new(onepole_class);
+    x->x_srcoef = SHARED_2PI / sys_getsr();
+    /* CHECKED no int-to-float conversion (any int bashed to 0.) */
+    sic_newinlet((t_sic *)x, f);
+    outlet_new((t_object *)x, &s_signal);
+    onepole_clear(x);
+    if (s == ps_linear)
+	x->x_mode = ONEPOLE_LINEAR;
+    else if (s == ps_radians)
+	x->x_mode = ONEPOLE_RADIANS;
+    else
+    {
+	x->x_mode = ONEPOLE_HZ;
+	if (s && s != &s_ && s != ps_hz && s != gensym("Hz"))
+	{
+	    /* CHECKED no warning */
+	}
+    }
+    return (x);
+}
+
+void onepole_tilde_setup(void)
+{
+    ps_hz = gensym("hz");
+    ps_linear = gensym("linear");
+    ps_radians = gensym("radians");
+    onepole_class = class_new(gensym("onepole~"),
+			      (t_newmethod)onepole_new, 0,
+			      sizeof(t_onepole), 0,
+			      A_DEFFLOAT, A_DEFSYM, 0);
+    sic_setup(onepole_class, onepole_dsp, SIC_FLOATTOSIGNAL);
+    class_addmethod(onepole_class, (t_method)onepole_clear, gensym("clear"), 0);
+    class_addmethod(onepole_class, (t_method)onepole_hz, ps_hz, 0);
+    class_addmethod(onepole_class, (t_method)onepole_hz, gensym("Hz"), 0);
+    class_addmethod(onepole_class, (t_method)onepole_linear, ps_linear, 0);
+    class_addmethod(onepole_class, (t_method)onepole_radians, ps_radians, 0);
+}
-- 
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