/* gen.c This file is part of a program that implements a Software-Defined Radio. Copyright (C) 2013 Warren Pratt, NR0V Copyright (C) 2024 Edouard Griffiths, F4EXB Adapted to SDRangel 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. The author can be reached by email at warren@wpratt.com */ #include #include "comm.hpp" #include "gen.hpp" #include "TXA.hpp" namespace WDSP { void GEN::calc_tone() { tone.phs = 0.0; tone.delta = TWOPI * tone.freq / rate; tone.cosdelta = cos (tone.delta); tone.sindelta = sin (tone.delta); } void GEN::calc_tt() { tt.phs1 = 0.0; tt.phs2 = 0.0; tt.delta1 = TWOPI * tt.f1 / rate; tt.delta2 = TWOPI * tt.f2 / rate; tt.cosdelta1 = cos (tt.delta1); tt.cosdelta2 = cos (tt.delta2); tt.sindelta1 = sin (tt.delta1); tt.sindelta2 = sin (tt.delta2); } void GEN::calc_sweep() { sweep.phs = 0.0; sweep.dphs = TWOPI * sweep.f1 / rate; sweep.d2phs = TWOPI * sweep.sweeprate / (rate * rate); sweep.dphsmax = TWOPI * sweep.f2 / rate; } void GEN::calc_sawtooth() { saw.period = 1.0 / saw.f; saw.delta = 1.0 / rate; saw.t = 0.0; } void GEN::calc_triangle() { tri.period = 1.0 / tri.f; tri.half = 0.5 * tri.period; tri.delta = 1.0 / rate; tri.t = 0.0; tri.t1 = 0.0; } void GEN::calc_pulse () { int i; float delta, theta; pulse.pperiod = 1.0 / pulse.pf; pulse.tphs = 0.0; pulse.tdelta = TWOPI * pulse.tf / rate; pulse.tcosdelta = cos (pulse.tdelta); pulse.tsindelta = sin (pulse.tdelta); pulse.pntrans = (int)(pulse.ptranstime * rate); pulse.pnon = (int)(pulse.pdutycycle * pulse.pperiod * rate); pulse.pnoff = (int)(pulse.pperiod * rate) - pulse.pnon - 2 * pulse.pntrans; if (pulse.pnoff < 0) pulse.pnoff = 0; pulse.pcount = pulse.pnoff; pulse.state = 0; pulse.ctrans = new float[pulse.pntrans + 1]; // (float *) malloc0 ((pulse.pntrans + 1) * sizeof (float)); delta = PI / (float)pulse.pntrans; theta = 0.0; for (i = 0; i <= pulse.pntrans; i++) { pulse.ctrans[i] = 0.5 * (1.0 - cos (theta)); theta += delta; } } void GEN::calc() { calc_tone(); calc_tt(); calc_sweep(); calc_sawtooth(); calc_triangle(); calc_pulse(); } void GEN::decalc() { delete[] (pulse.ctrans); } GEN::GEN( int _run, int _size, float* _in, float* _out, int _rate, int _mode ) : run(_run), size(_size), in(_in), out(_out), rate((double) _rate), mode(_mode) { // tone tone.mag = 1.0; tone.freq = 1000.0; // two-tone tt.mag1 = 0.5; tt.mag2 = 0.5; tt.f1 = + 900.0; tt.f2 = + 1700.0; // noise srand ((unsigned int) time (0)); noise.mag = 1.0; // sweep sweep.mag = 1.0; sweep.f1 = -20000.0; sweep.f2 = +20000.0; sweep.sweeprate = +4000.0; // sawtooth saw.mag = 1.0; saw.f = 500.0; // triangle tri.mag = 1.0; tri.f = 500.0; // pulse pulse.mag = 1.0; pulse.pf = 0.25; pulse.pdutycycle = 0.25; pulse.ptranstime = 0.002; pulse.tf = 1000.0; calc(); } GEN::~GEN() { decalc(); } void GEN::flush() { pulse.state = 0; } enum pstate { OFF, UP, ON, DOWN }; void GEN::execute() { if (run) { switch (mode) { case 0: // tone { int i; float t1, t2; float cosphase = cos (tone.phs); float sinphase = sin (tone.phs); for (i = 0; i < size; i++) { out[2 * i + 0] = + tone.mag * cosphase; out[2 * i + 1] = - tone.mag * sinphase; t1 = cosphase; t2 = sinphase; cosphase = t1 * tone.cosdelta - t2 * tone.sindelta; sinphase = t1 * tone.sindelta + t2 * tone.cosdelta; tone.phs += tone.delta; if (tone.phs >= TWOPI) tone.phs -= TWOPI; if (tone.phs < 0.0 ) tone.phs += TWOPI; } break; } case 1: // two-tone { int i; float tcos, tsin; float cosphs1 = cos (tt.phs1); float sinphs1 = sin (tt.phs1); float cosphs2 = cos (tt.phs2); float sinphs2 = sin (tt.phs2); for (i = 0; i < size; i++) { out[2 * i + 0] = + tt.mag1 * cosphs1 + tt.mag2 * cosphs2; out[2 * i + 1] = - tt.mag1 * sinphs1 - tt.mag2 * sinphs2; tcos = cosphs1; tsin = sinphs1; cosphs1 = tcos * tt.cosdelta1 - tsin * tt.sindelta1; sinphs1 = tcos * tt.sindelta1 + tsin * tt.cosdelta1; tt.phs1 += tt.delta1; if (tt.phs1 >= TWOPI) tt.phs1 -= TWOPI; if (tt.phs1 < 0.0 ) tt.phs1 += TWOPI; tcos = cosphs2; tsin = sinphs2; cosphs2 = tcos * tt.cosdelta2 - tsin * tt.sindelta2; sinphs2 = tcos * tt.sindelta2 + tsin * tt.cosdelta2; tt.phs2 += tt.delta2; if (tt.phs2 >= TWOPI) tt.phs2 -= TWOPI; if (tt.phs2 < 0.0 ) tt.phs2 += TWOPI; } break; } case 2: // noise { int i; float r1, r2, c, rad; for (i = 0; i < size; i++) { do { r1 = 2.0 * (float)rand() / (float)RAND_MAX - 1.0; r2 = 2.0 * (float)rand() / (float)RAND_MAX - 1.0; c = r1 * r1 + r2 * r2; } while (c >= 1.0); rad = sqrt (-2.0 * log (c) / c); out[2 * i + 0] = noise.mag * rad * r1; out[2 * i + 1] = noise.mag * rad * r2; } break; } case 3: // sweep { int i; for (i = 0; i < size; i++) { out[2 * i + 0] = + sweep.mag * cos(sweep.phs); out[2 * i + 1] = - sweep.mag * sin(sweep.phs); sweep.phs += sweep.dphs; sweep.dphs += sweep.d2phs; if (sweep.phs >= TWOPI) sweep.phs -= TWOPI; if (sweep.phs < 0.0 ) sweep.phs += TWOPI; if (sweep.dphs > sweep.dphsmax) sweep.dphs = TWOPI * sweep.f1 / rate; } break; } case 4: // sawtooth (audio only) { int i; for (i = 0; i < size; i++) { if (saw.t > saw.period) saw.t -= saw.period; out[2 * i + 0] = saw.mag * (saw.t * saw.f - 1.0); out[2 * i + 1] = 0.0; saw.t += saw.delta; } } break; case 5: // triangle (audio only) { int i; for (i = 0; i < size; i++) { if (tri.t > tri.period) tri.t1 = tri.t -= tri.period; if (tri.t > tri.half) tri.t1 -= tri.delta; else tri.t1 += tri.delta; out[2 * i + 0] = tri.mag * (4.0 * tri.t1 * tri.f - 1.0); out[2 * i + 1] = 0.0; tri.t += tri.delta; } } break; case 6: // pulse (audio only) { int i; float t1, t2; float cosphase = cos (pulse.tphs); float sinphase = sin (pulse.tphs); for (i = 0; i < size; i++) { if (pulse.pnoff != 0) switch (pulse.state) { case OFF: out[2 * i + 0] = 0.0; if (--pulse.pcount == 0) { pulse.state = UP; pulse.pcount = pulse.pntrans; } break; case UP: out[2 * i + 0] = pulse.mag * cosphase * pulse.ctrans[pulse.pntrans - pulse.pcount]; if (--pulse.pcount == 0) { pulse.state = ON; pulse.pcount = pulse.pnon; } break; case ON: out[2 * i + 0] = pulse.mag * cosphase; if (--pulse.pcount == 0) { pulse.state = DOWN; pulse.pcount = pulse.pntrans; } break; case DOWN: out[2 * i + 0] = pulse.mag * cosphase * pulse.ctrans[pulse.pcount]; if (--pulse.pcount == 0) { pulse.state = OFF; pulse.pcount = pulse.pnoff; } break; } else out[2 * i + 0] = 0.0; out[2 * i + 1] = 0.0; t1 = cosphase; t2 = sinphase; cosphase = t1 * pulse.tcosdelta - t2 * pulse.tsindelta; sinphase = t1 * pulse.tsindelta + t2 * pulse.tcosdelta; pulse.tphs += pulse.tdelta; if (pulse.tphs >= TWOPI) pulse.tphs -= TWOPI; if (pulse.tphs < 0.0 ) pulse.tphs += TWOPI; } } break; default: // silence { std::fill(out, out + size * 2, 0); break; } } } else if (in != out) std::copy( in, in + size * 2, out); } void GEN::setBuffers(float* _in, float* _out) { in = _in; out = _out; } void GEN::setSamplerate(int _rate) { decalc(); rate = _rate; calc(); } void GEN::setSize(int _size) { size = _size; flush(); } /******************************************************************************************************** * * * Public Properties * * * ********************************************************************************************************/ // 'PreGen', gen0 void GEN::SetPreRun(int _run) { run = _run; } void GEN::SetPreMode(int _mode) { mode = _mode; } void GEN::SetPreToneMag(float mag) { tone.mag = mag; } void GEN::SetPreToneFreq(float freq) { tone.freq = freq; calc_tone(); } void GEN::SetPreNoiseMag (float mag) { noise.mag = mag; } void GEN::SetPreSweepMag(float mag) { sweep.mag = mag; } void GEN::SetPreSweepFreq(float freq1, float freq2) { sweep.f1 = freq1; sweep.f2 = freq2; calc_sweep(); } void GEN::SetPreSweepRate(float rate) { sweep.sweeprate = rate; calc_sweep(); } /******************************************************************************************************** * * * TXA Properties * * * ********************************************************************************************************/ // 'PreGen', gen0 void GEN::SetPreGenRun (TXA& txa, int run) { txa.gen0.p->run = run; } void GEN::SetPreGenMode (TXA& txa, int mode) { txa.gen0.p->mode = mode; } void GEN::SetPreGenToneMag (TXA& txa, float mag) { txa.gen0.p->tone.mag = mag; } void GEN::SetPreGenToneFreq (TXA& txa, float freq) { txa.gen0.p->tone.freq = freq; txa.gen0.p->calc_tone(); } void GEN::SetPreGenNoiseMag (TXA& txa, float mag) { txa.gen0.p->noise.mag = mag; } void GEN::SetPreGenSweepMag (TXA& txa, float mag) { txa.gen0.p->sweep.mag = mag; } void GEN::SetPreGenSweepFreq (TXA& txa, float freq1, float freq2) { txa.gen0.p->sweep.f1 = freq1; txa.gen0.p->sweep.f2 = freq2; txa.gen0.p->calc_sweep(); } void GEN::SetPreGenSweepRate (TXA& txa, float rate) { txa.gen0.p->sweep.sweeprate = rate; txa.gen0.p->calc_sweep(); } void GEN::SetPreGenSawtoothMag (TXA& txa, float mag) { txa.gen0.p->saw.mag = mag; } void GEN::SetPreGenSawtoothFreq (TXA& txa, float freq) { txa.gen0.p->saw.f = freq; txa.gen0.p->calc_sawtooth(); } void GEN::SetPreGenTriangleMag (TXA& txa, float mag) { txa.gen0.p->tri.mag = mag; } void GEN::SetPreGenTriangleFreq (TXA& txa, float freq) { txa.gen0.p->tri.f = freq; txa.gen0.p->calc_triangle(); } void GEN::SetPreGenPulseMag (TXA& txa, float mag) { txa.gen0.p->pulse.mag = mag; } void GEN::SetPreGenPulseFreq (TXA& txa, float freq) { txa.gen0.p->pulse.pf = freq; txa.gen0.p->calc_pulse(); } void GEN::SetPreGenPulseDutyCycle (TXA& txa, float dc) { txa.gen0.p->pulse.pdutycycle = dc; txa.gen0.p->calc_pulse(); } void GEN::SetPreGenPulseToneFreq (TXA& txa, float freq) { txa.gen0.p->pulse.tf = freq; txa.gen0.p->calc_pulse(); } void GEN::SetPreGenPulseTransition (TXA& txa, float transtime) { txa.gen0.p->pulse.ptranstime = transtime; txa.gen0.p->calc_pulse(); } // 'PostGen', gen1 void GEN::SetPostGenRun (TXA& txa, int run) { txa.gen1.p->run = run; } void GEN::SetPostGenMode (TXA& txa, int mode) { txa.gen1.p->mode = mode; } void GEN::SetPostGenToneMag (TXA& txa, float mag) { txa.gen1.p->tone.mag = mag; } void GEN::SetPostGenToneFreq (TXA& txa, float freq) { txa.gen1.p->tone.freq = freq; txa.gen1.p->calc_tone(); } void GEN::SetPostGenTTMag (TXA& txa, float mag1, float mag2) { txa.gen1.p->tt.mag1 = mag1; txa.gen1.p->tt.mag2 = mag2; } void GEN::SetPostGenTTFreq (TXA& txa, float freq1, float freq2) { txa.gen1.p->tt.f1 = freq1; txa.gen1.p->tt.f2 = freq2; txa.gen1.p->calc_tt(); } void GEN::SetPostGenSweepMag (TXA& txa, float mag) { txa.gen1.p->sweep.mag = mag; } void GEN::SetPostGenSweepFreq (TXA& txa, float freq1, float freq2) { txa.gen1.p->sweep.f1 = freq1; txa.gen1.p->sweep.f2 = freq2; txa.gen1.p->calc_sweep(); } void GEN::SetPostGenSweepRate (TXA& txa, float rate) { txa.gen1.p->sweep.sweeprate = rate; txa.gen1.p->calc_sweep(); } } // namespace WDSP