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-rw-r--r--chaos/src/chaos_dsp.hpp164
1 files changed, 140 insertions, 24 deletions
diff --git a/chaos/src/chaos_dsp.hpp b/chaos/src/chaos_dsp.hpp
index 821b544..ddb8fe4 100644
--- a/chaos/src/chaos_dsp.hpp
+++ b/chaos/src/chaos_dsp.hpp
@@ -36,8 +36,12 @@ public:
void m_signal_n_hf(int n, t_sample *const *insigs,t_sample *const *outsigs);
/* linear interpolation */
void m_signal_l(int n, t_sample *const *insigs,t_sample *const *outsigs);
+ /* linear interpolation for high frequencies */
+ void m_signal_l_hf(int n, t_sample *const *insigs,t_sample *const *outsigs);
/* cubic interpolation */
void m_signal_c(int n, t_sample *const *insigs,t_sample *const *outsigs);
+ /* cubic interpolation for high frequencies */
+ void m_signal_c_hf(int n, t_sample *const *insigs,t_sample *const *outsigs);
virtual void CbSignal()
{
@@ -66,8 +70,7 @@ public:
/* local data for signal functions */
float m_freq; /* frequency of oscillations */
float m_invfreq; /* inverse frequency */
- int m_phase; /* phase counter */
- float m_fphase; /* phase for high frequency linear interpolation */
+ float m_phase; /* phase */
float m_sr; /* sample rate */
int m_imethod; /* interpolation method */
@@ -118,7 +121,7 @@ public:
m_nextmidpts[j] = m_values[j];
}
}
-
+ set_freq(m_freq);
}
void get_freq(float &f)
@@ -133,20 +136,41 @@ public:
if( f <= m_sr * 0.1 )
{
- if (m_freq >= m_sr * 0.5)
- set_imethod(m_imethod);
- m_freq = f;
- m_invfreq = 1.f / f;
+ switch(m_imethod)
+ {
+ case 0:
+ m_routine = &thisType::m_signal_n;
+ break;
+ case 1:
+ m_routine = &thisType::m_signal_l;
+ break;
+ case 2:
+ m_routine = &thisType::m_signal_c;
+ break;
+ default:
+ assert(false);
+ }
}
- else if (f > m_sr * 0.1)
+ else
{
- m_freq = f;
- m_invfreq = 1.f / f;
-
- m_routine = &thisType::m_signal_n_hf;
+ switch(m_imethod)
+ {
+ case 0:
+ m_routine = &thisType::m_signal_n_hf;
+ break;
+ case 1:
+ m_routine = &thisType::m_signal_l_hf;
+ break;
+ case 2:
+ m_routine = &thisType::m_signal_c_hf;
+ break;
+ default:
+ assert(false);
+ }
}
- else
- post("frequency out of range");
+
+ m_freq = f;
+ m_invfreq = 1.f / f;
}
FLEXT_CALLVAR_F(get_freq, set_freq);
@@ -226,7 +250,7 @@ FLEXT_ATTRVAR_I(m_imethod);
template <class system>
void chaos_dsp<system>::m_signal_(int n, t_sample *const *insigs,
- t_sample *const *outsigs)
+ t_sample *const *outsigs)
{
int outlets = m_system->get_num_eq();
@@ -247,7 +271,7 @@ void chaos_dsp<system>::m_signal_n_hf(int n, t_sample *const *insigs,
{
int outlets = m_system->get_num_eq();
- float phase = m_fphase;
+ float phase = m_phase;
int offset = 0;
while (n)
@@ -267,17 +291,17 @@ void chaos_dsp<system>::m_signal_n_hf(int n, t_sample *const *insigs,
}
offset += next;
}
- m_fphase = phase;
+ m_phase = phase;
}
template <class system>
void chaos_dsp<system>::m_signal_n(int n, t_sample *const *insigs,
- t_sample *const *outsigs)
+ t_sample *const *outsigs)
{
int outlets = m_system->get_num_eq();
- int phase = m_phase;
+ int phase = int(m_phase);
int offset = 0;
while (n)
@@ -304,11 +328,11 @@ void chaos_dsp<system>::m_signal_n(int n, t_sample *const *insigs,
/* linear and cubic interpolation adapted from supercollider by James McCartney */
template <class system>
void chaos_dsp<system>::m_signal_l(int n, t_sample *const *insigs,
- t_sample *const *outsigs)
+ t_sample *const *outsigs)
{
int outlets = m_system->get_num_eq();
- int phase = m_phase;
+ int phase = int(m_phase);
int i = 0;
@@ -341,13 +365,53 @@ void chaos_dsp<system>::m_signal_l(int n, t_sample *const *insigs,
}
+
+template <class system>
+void chaos_dsp<system>::m_signal_l_hf(int n, t_sample *const *insigs,
+ t_sample *const *outsigs)
+{
+ int outlets = m_system->get_num_eq();
+
+ float phase = int(m_phase);
+
+ int i = 0;
+
+ while (n)
+ {
+ if (phase == 0)
+ {
+ m_system->m_perform();
+ phase = int (m_sr * m_invfreq);
+
+ for (int j = 0; j != outlets; ++j)
+ m_slopes[j] = (m_system->get_data(j) - m_values[j]) / phase;
+ }
+
+ int next = (phase < n) ? int(ceilf (phase)) : n;
+ n -= next;
+ phase -=next;
+
+ while (next--)
+ {
+ for (int j = 0; j != outlets; ++j)
+ {
+ outsigs[j][i] = m_values[j];
+ m_values[j]+=m_slopes[j];
+ }
+ ++i;
+ }
+ }
+ m_phase = phase;
+}
+
+
template <class system>
void chaos_dsp<system>::m_signal_c(int n, t_sample *const *insigs,
- t_sample *const *outsigs)
+ t_sample *const *outsigs)
{
int outlets = m_system->get_num_eq();
- int phase = m_phase;
+ int phase = int(m_phase);
int i = 0;
@@ -369,7 +433,7 @@ void chaos_dsp<system>::m_signal_c(int n, t_sample *const *insigs,
float fseglen = (float)phase;
m_curves[j] = 2.f * (m_nextmidpts[j] - m_values[j] -
- fseglen * m_slopes[j])
+ fseglen * m_slopes[j])
/ (fseglen * fseglen + fseglen);
}
}
@@ -391,3 +455,55 @@ void chaos_dsp<system>::m_signal_c(int n, t_sample *const *insigs,
}
m_phase = phase;
}
+
+
+template <class system>
+void chaos_dsp<system>::m_signal_c_hf(int n, t_sample *const *insigs,
+ t_sample *const *outsigs)
+{
+ int outlets = m_system->get_num_eq();
+
+ float phase = m_phase;
+
+ int i = 0;
+
+ while (n)
+ {
+ if (phase == 0)
+ {
+ m_system->m_perform();
+ phase = int (m_sr * m_invfreq);
+ phase = (phase > 2) ? phase : 2;
+
+ for (int j = 0; j != outlets; ++j)
+ {
+ t_sample value = m_nextvalues[j];
+ m_nextvalues[j]= m_system->get_data(j);
+
+ m_values[j] = m_nextmidpts[j];
+ m_nextmidpts[j] = (m_nextvalues[j] + value) * 0.5f;
+
+ float fseglen = (float)phase;
+ m_curves[j] = 2.f * (m_nextmidpts[j] - m_values[j] -
+ fseglen * m_slopes[j])
+ / (fseglen * fseglen + fseglen);
+ }
+ }
+
+ int next = (phase < n) ? int(ceilf (phase)) : n;
+ n -= next;
+ phase -=next;
+
+ while (next--)
+ {
+ for (int j = 0; j != outlets; ++j)
+ {
+ outsigs[j][i] = m_values[j];
+ m_slopes[j]+=m_curves[j];
+ m_values[j]+=m_slopes[j];
+ }
+ ++i;
+ }
+ }
+ m_phase = phase;
+}