// ---------------------------------------------------------------------- // // Copyright (C) 2010 Fons Adriaensen // Modified by falkTX on Jan-Apr 2015 for inclusion in Carla // // 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., 675 Mass Ave, Cambridge, MA 02139, USA. // // ---------------------------------------------------------------------- #include #include #include "pareq.h" namespace REV1 { Pareq::Pareq (void) : _touch0 (0), _touch1 (0), _state (BYPASS), _g0 (1), _g1 (1), _f0 (1e3f), _f1 (1e3f) { setfsamp (0.0f); } Pareq::~Pareq (void) { } void Pareq::setfsamp (float fsamp) { _fsamp = fsamp; reset (); } void Pareq::reset (void) { memset (_z1, 0, sizeof (float) * MAXCH); memset (_z2, 0, sizeof (float) * MAXCH); } void Pareq::prepare (int nsamp) { bool upd = false; float g, f; if (_touch1 != _touch0) { g = _g0; f = _f0; if (g != _g1) { upd = true; if (g > 2 * _g1) _g1 *= 2; else if (_g1 > 2 * g) _g1 /= 2; else _g1 = g; } if (f != _f1) { upd = true; if (f > 2 * _f1) _f1 *= 2; else if (_f1 > 2 * f) _f1 /= 2; else _f1 = f; } if (upd) { if ((_state == BYPASS) && (_g1 == 1)) { calcpar1 (0, _g1, _f1); } else { _state = SMOOTH; calcpar1 (nsamp, _g1, _f1); } } else { _touch1 = _touch0; if (fabs (_g1 - 1) < 0.001f) { _state = BYPASS; reset (); } else { _state = STATIC; } } } } void Pareq::calcpar1 (int nsamp, float g, float f) { float b, c1, c2, gg; f *= float (M_PI) / _fsamp; b = 2 * f / sqrtf (g); gg = 0.5f * (g - 1); c1 = -cosf (2 * f); c2 = (1 - b) / (1 + b); if (nsamp) { _dc1 = (c1 - _c1) / nsamp + 1e-30f; _dc2 = (c2 - _c2) / nsamp + 1e-30f; _dgg = (gg - _gg) / nsamp + 1e-30f; } else { _c1 = c1; _c2 = c2; _gg = gg; } } void Pareq::process1 (int nsamp, int nchan, float *data[]) { int i, j; float c1, c2, gg; float x, y, z1, z2; float *p; c1 = _c1; c2 = _c2; gg = _gg; if (_state == SMOOTH) { for (i = 0; i < nchan; i++) { p = data [i]; z1 = _z1 [i]; z2 = _z2 [i]; c1 = _c1; c2 = _c2; gg = _gg; for (j = 0; j < nsamp; j++) { c1 += _dc1; c2 += _dc2; gg += _dgg; x = *p; y = x - c2 * z2; *p++ = x - gg * (z2 + c2 * y - x); y -= c1 * z1; z2 = z1 + c1 * y; z1 = y + 1e-20f; } _z1 [i] = z1; _z2 [i] = z2; } _c1 = c1; _c2 = c2; _gg = gg; } else { for (i = 0; i < nchan; i++) { p = data [i]; z1 = _z1 [i]; z2 = _z2 [i]; for (j = 0; j < nsamp; j++) { x = *p; y = x - c2 * z2; *p++ = x - gg * (z2 + c2 * y - x); y -= c1 * z1; z2 = z1 + c1 * y; z1 = y + 1e-20f; } _z1 [i] = z1; _z2 [i] = z2; } } } }