/* Phaser.cc Copyright 2002-7 Tim Goetze http://quitte.de/dsp/ One simple mono phaser, 6 all-pass lines, the usual controls. Another unit in the same vein with the filter modulation controlled by a Lorenz fractal. */ /* This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA or point your web browser to http://www.gnu.org. */ #include "basics.h" #include "Phaser.h" #include "Descriptor.h" template void PhaserI::one_cycle (int frames) { d_sample * s = ports[0]; if (rate != *ports[1]) { rate = getport(1); lfo.set_f (max (.001, rate * (double) blocksize), fs, lfo.get_phase()); } double depth = getport(2); double spread = 1 + getport(3); double fb = getport(4); d_sample * dst = ports[5]; while (frames) { if (remain == 0) remain = 32; int n = min (remain, frames); double d = delay.bottom + delay.range * (1. - fabs (lfo.get())); for (int j = 5; j >= 0; --j) { ap[j].set (d); d *= spread; } for (int i = 0; i < n; ++i) { d_sample x = s[i]; d_sample y = x + y0 * fb + normal; for (int j = 5; j >= 0; --j) y = ap[j].process (y); y0 = y; F (dst, i, x + y * depth, adding_gain); } s += n; dst += n; frames -= n; remain -= n; } } /* //////////////////////////////////////////////////////////////////////// */ PortInfo PhaserI::port_info [] = { { "in", INPUT | AUDIO, {BOUNDED, -1, 1} }, { "rate (Hz)", INPUT | CONTROL, {BOUNDED | DEFAULT_1, 0, 10} }, { "depth", INPUT | CONTROL, {BOUNDED | DEFAULT_HIGH, 0, 1} }, { "spread", INPUT | CONTROL, {BOUNDED | DEFAULT_LOW, 0, M_PI} }, { "feedback", INPUT | CONTROL, {BOUNDED | DEFAULT_HIGH, 0, .999} }, { "out", OUTPUT | AUDIO, {0} } }; template <> void Descriptor::setup() { UniqueID = 1775; Label = "PhaserI"; Properties = HARD_RT; Name = CAPS "PhaserI - Mono phaser"; Maker = "Tim Goetze "; Copyright = "GPL, 2002-7"; /* fill port info and vtable */ autogen(); } /* //////////////////////////////////////////////////////////////////////// */ template void PhaserII::one_cycle (int frames) { d_sample * s = ports[0]; lorenz.set_rate (getport(1) * .08); double depth = getport(2); double spread = 1 + getport(3); double fb = getport(4); d_sample * dst = ports[5]; while (frames) { if (remain == 0) remain = 32; int n = min (remain, frames); double d = delay.bottom + delay.range * (.3 * lorenz.get()); for (int j = 5; j >= 0; --j) { ap[j].set (d); d *= spread; } for (int i = 0; i < n; ++i) { d_sample x = s[i]; d_sample y = x + y0 * fb + normal; for (int j = 5; j >= 0; --j) y = ap[j].process (y); y0 = y; F (dst, i, x + y * depth, adding_gain); } s += n; dst += n; frames -= n; remain -= n; } } /* //////////////////////////////////////////////////////////////////////// */ PortInfo PhaserII::port_info [] = { { "in", INPUT | AUDIO, {BOUNDED, -1, 1} }, { "rate", INPUT | CONTROL, {BOUNDED | DEFAULT_LOW, 0, 1} }, { "depth", INPUT | CONTROL, {BOUNDED | DEFAULT_HIGH, 0, 1} }, { "spread", INPUT | CONTROL, {BOUNDED | DEFAULT_LOW, 0, M_PI * .5} }, { "feedback", INPUT | CONTROL, {BOUNDED | DEFAULT_HIGH, 0, .999} }, { "out", OUTPUT | AUDIO, {0} } }; template <> void Descriptor::setup() { UniqueID = 2586; Label = "PhaserII"; Properties = HARD_RT; Name = CAPS "PhaserII - Mono phaser modulated by a Lorenz fractal"; Maker = "Tim Goetze "; Copyright = "GPL, 2002-7"; /* fill port info and vtable */ autogen(); }