NO-OP: whitespace
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@ -22,9 +22,9 @@
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#endif
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#include <math.h>
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#include <stdint.h>
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#include <stdlib.h>
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#include <string.h>
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#include <stdint.h>
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#ifndef COMPILER_MSVC
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#include <stdbool.h>
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@ -37,12 +37,12 @@
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#endif
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#ifndef MIN
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#define MIN(A, B) ( (A) < (B) ? (A) : (B) )
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#define MIN(A, B) ((A) < (B) ? (A) : (B))
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#endif
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/* internal MIDI event abstraction */
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enum RMIDI_EV_TYPE {
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INVALID=0,
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INVALID = 0,
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NOTE_ON,
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NOTE_OFF,
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PROGRAM_CHANGE,
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@ -71,29 +71,29 @@ typedef struct {
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} ADSRcfg;
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typedef struct _RSSynthChannel {
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uint32_t keycomp;
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uint32_t adsr_cnt[128];
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float adsr_amp[128];
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float phase[128]; // various use, zero'ed on note-on
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int8_t miditable[128]; // internal, note-on/off velocity
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int8_t midimsgs [128]; // internal, note-off + on in same cycle, sustained-off
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int8_t sustain; // sustain pedal pressed
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ADSRcfg adsr;
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void (*synthesize) (struct _RSSynthChannel* sc,
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const uint8_t note, const float vol, const float pc,
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const size_t n_samples, float* left, float* right);
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uint32_t keycomp;
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uint32_t adsr_cnt[128];
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float adsr_amp[128];
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float phase[128]; // various use, zero'ed on note-on
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int8_t miditable[128]; // internal, note-on/off velocity
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int8_t midimsgs[128]; // internal, note-off + on in same cycle, sustained-off
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int8_t sustain; // sustain pedal pressed
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ADSRcfg adsr;
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void (*synthesize) (struct _RSSynthChannel* sc,
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const uint8_t note, const float vol, const float pc,
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const size_t n_samples, float* left, float* right);
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} RSSynthChannel;
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typedef void (*SynthFunction) (RSSynthChannel* sc,
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const uint8_t note,
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const float vol,
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const float pc,
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const size_t n_samples,
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const uint8_t note,
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const float vol,
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const float pc,
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const size_t n_samples,
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float* left, float* right);
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typedef struct {
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uint32_t boffset;
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float buf [2][BUFFER_SIZE_SAMPLES];
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float buf[2][BUFFER_SIZE_SAMPLES];
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RSSynthChannel sc[16];
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float freqs[128];
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float kcgain;
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@ -113,7 +113,7 @@ typedef struct {
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* @param svol sustain volume level [0..1]
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*/
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static void
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init_adsr (ADSRcfg *adsr, const double rate,
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init_adsr (ADSRcfg* adsr, const double rate,
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const uint32_t a, const uint32_t d, const uint32_t r,
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const float avol, const float svol)
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{
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@ -123,11 +123,11 @@ init_adsr (ADSRcfg *adsr, const double rate,
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adsr->tme[1] = d * rate / 1000.0;
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adsr->tme[2] = r * rate / 1000.0;
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assert(adsr->tme[0] > 32);
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assert(adsr->tme[1] > 32);
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assert(adsr->tme[2] > 32);
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assert(adsr->vol[0] >=0 && adsr->vol[1] <= 1.0);
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assert(adsr->vol[1] >=0 && adsr->vol[1] <= 1.0);
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assert (adsr->tme[0] > 32);
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assert (adsr->tme[1] > 32);
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assert (adsr->tme[2] > 32);
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assert (adsr->vol[0] >= 0 && adsr->vol[1] <= 1.0);
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assert (adsr->vol[1] >= 0 && adsr->vol[1] <= 1.0);
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adsr->off[0] = adsr->tme[0];
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adsr->off[1] = adsr->tme[1] + adsr->off[0];
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@ -136,7 +136,7 @@ init_adsr (ADSRcfg *adsr, const double rate,
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/* calculate per-sample, per-key envelope */
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static inline float
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adsr_env(RSSynthChannel *sc, const uint8_t note)
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adsr_env (RSSynthChannel* sc, const uint8_t note)
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{
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if (sc->adsr_cnt[note] < sc->adsr.off[0]) {
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// attack
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@ -146,10 +146,9 @@ adsr_env(RSSynthChannel *sc, const uint8_t note)
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return sc->adsr.vol[0];
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} else {
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const float d = sc->adsr.vol[0] - sc->adsr_amp[note];
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return sc->adsr_amp[note] + (p / (float) sc->adsr.tme[0]) * d;
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return sc->adsr_amp[note] + (p / (float)sc->adsr.tme[0]) * d;
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}
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}
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else if (sc->adsr_cnt[note] < sc->adsr.off[1]) {
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} else if (sc->adsr_cnt[note] < sc->adsr.off[1]) {
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// decay
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const uint32_t p = ++sc->adsr_cnt[note] - sc->adsr.off[0];
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if (p == sc->adsr.tme[1]) {
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@ -157,14 +156,12 @@ adsr_env(RSSynthChannel *sc, const uint8_t note)
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return sc->adsr.vol[1];
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} else {
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const float d = sc->adsr.vol[1] - sc->adsr_amp[note];
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return sc->adsr_amp[note] + (p / (float) sc->adsr.tme[1]) * d;
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return sc->adsr_amp[note] + (p / (float)sc->adsr.tme[1]) * d;
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}
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}
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else if (sc->adsr_cnt[note] == sc->adsr.off[1]) {
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} else if (sc->adsr_cnt[note] == sc->adsr.off[1]) {
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// sustain
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return sc->adsr.vol[1];
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}
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else if (sc->adsr_cnt[note] < sc->adsr.off[2]) {
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} else if (sc->adsr_cnt[note] < sc->adsr.off[2]) {
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// release
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const uint32_t p = ++sc->adsr_cnt[note] - sc->adsr.off[1];
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if (p == sc->adsr.tme[2]) {
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@ -172,10 +169,9 @@ adsr_env(RSSynthChannel *sc, const uint8_t note)
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return 0;
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} else {
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const float d = 0 - sc->adsr_amp[note];
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return sc->adsr_amp[note] + (p / (float) sc->adsr.tme[2]) * d;
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return sc->adsr_amp[note] + (p / (float)sc->adsr.tme[2]) * d;
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}
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}
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else {
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} else {
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sc->adsr_cnt[note] = 0;
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return 0;
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}
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@ -189,109 +185,107 @@ synthesize_sineP (RSSynthChannel* sc,
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const size_t n_samples, float* left, float* right)
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{
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size_t i;
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float phase = sc->phase[note];
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float phase = sc->phase[note];
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for (i=0; i < n_samples; ++i) {
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float env = adsr_env(sc, note);
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if (sc->adsr_cnt[note] == 0) break;
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for (i = 0; i < n_samples; ++i) {
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float env = adsr_env (sc, note);
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if (sc->adsr_cnt[note] == 0) {
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break;
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}
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const float amp = vol * env;
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if (amp > 1e-10) {
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left[i] += amp * sinf(2.0 * M_PI * phase);
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left[i] += .300 * amp * sinf(2.0 * M_PI * phase * 2.0);
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left[i] += .150 * amp * sinf(2.0 * M_PI * phase * 3.0);
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left[i] += .080 * amp * sinf(2.0 * M_PI * phase * 4.0);
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//left[i] -= .007 * amp * sinf(2.0 * M_PI * phase * 5.0);
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//left[i] += .010 * amp * sinf(2.0 * M_PI * phase * 6.0);
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left[i] += .020 * amp * sinf(2.0 * M_PI * phase * 7.0);
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left[i] += amp * sinf (2.0 * M_PI * phase);
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left[i] += .300 * amp * sinf (2.0 * M_PI * phase * 2.0);
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left[i] += .150 * amp * sinf (2.0 * M_PI * phase * 3.0);
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left[i] += .080 * amp * sinf (2.0 * M_PI * phase * 4.0);
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//left[i] -= .007 * amp * sinf(2.0 * M_PI * phase * 5.0);
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//left[i] += .010 * amp * sinf(2.0 * M_PI * phase * 6.0);
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left[i] += .020 * amp * sinf (2.0 * M_PI * phase * 7.0);
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phase += fq;
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right[i] += amp * sinf(2.0 * M_PI * phase);
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right[i] += .300 * amp * sinf(2.0 * M_PI * phase * 2.0);
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right[i] += .150 * amp * sinf(2.0 * M_PI * phase * 3.0);
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right[i] -= .080 * amp * sinf(2.0 * M_PI * phase * 4.0);
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right[i] += amp * sinf (2.0 * M_PI * phase);
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right[i] += .300 * amp * sinf (2.0 * M_PI * phase * 2.0);
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right[i] += .150 * amp * sinf (2.0 * M_PI * phase * 3.0);
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right[i] -= .080 * amp * sinf (2.0 * M_PI * phase * 4.0);
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//right[i] += .007 * amp * sinf(2.0 * M_PI * phase * 5.0);
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//right[i] += .010 * amp * sinf(2.0 * M_PI * phase * 6.0);
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right[i] -= .020 * amp * sinf(2.0 * M_PI * phase * 7.0);
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right[i] -= .020 * amp * sinf (2.0 * M_PI * phase * 7.0);
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} else {
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phase += fq;
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}
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if (phase > 1.0) phase -= 2.0;
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if (phase > 1.0)
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phase -= 2.0;
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}
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sc->phase[note] = phase;
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}
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static const ADSRcfg piano_adsr = {{ 5, 800, 100}, { 1.0, 0.0}, {0, 0, 0}};
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static const ADSRcfg piano_adsr = { { 5, 800, 100 }, { 1.0, 0.0 }, { 0, 0, 0 } };
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/*****************************************************************************/
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/* process note - move through ADSR states, count active keys,.. */
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static void
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process_key (void *synth,
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process_key (void* synth,
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const uint8_t chn, const uint8_t note,
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const size_t n_samples,
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float *left, float *right)
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float* left, float* right)
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{
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RSSynthesizer* rs = (RSSynthesizer*)synth;
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RSSynthChannel* sc = &rs->sc[chn];
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const int8_t vel = sc->miditable[note];
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const int8_t msg = sc->midimsgs[note];
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const float vol = /* master_volume */ 0.1f * abs(vel) / 127.f;
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const float phase = sc->phase[note];
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const int8_t sus = sc->sustain;
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RSSynthesizer* rs = (RSSynthesizer*)synth;
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RSSynthChannel* sc = &rs->sc[chn];
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const int8_t vel = sc->miditable[note];
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const int8_t msg = sc->midimsgs[note];
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const float vol = /* master_volume */ 0.1f * abs (vel) / 127.f;
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const float phase = sc->phase[note];
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const int8_t sus = sc->sustain;
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sc->midimsgs[note] &= ~3;
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if (phase == -10 && vel > 0) {
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// new note on
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sc->midimsgs[note] &= ~4;
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assert(sc->adsr_cnt[note] == 0);
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assert (sc->adsr_cnt[note] == 0);
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sc->adsr_amp[note] = 0;
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sc->adsr_cnt[note] = 0;
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sc->phase[note] = 0;
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sc->phase[note] = 0;
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sc->keycomp++;
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//printf("[On] Now %d keys active on chn %d\n", sc->keycomp, chn);
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}
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else if (phase >= -1.0 && phase <= 1.0 && vel > 0) {
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} else if (phase >= -1.0 && phase <= 1.0 && vel > 0) {
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// sustain note or re-start note while adsr in progress:
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if (sc->adsr_cnt[note] > sc->adsr.off[1] || msg == 3 || msg == 5 || msg == 7) {
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sc->midimsgs[note] &= ~4;
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// x-fade to attack
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sc->adsr_amp[note] = adsr_env(sc, note);
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sc->adsr_amp[note] = adsr_env (sc, note);
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sc->adsr_cnt[note] = 0;
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}
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}
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else if (phase >= -1.0 && phase <= 1.0 && vel < 0) {
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} else if (phase >= -1.0 && phase <= 1.0 && vel < 0) {
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sc->midimsgs[note] |= 4;
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// note off
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if (sc->adsr_cnt[note] <= sc->adsr.off[1] && !sus) {
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if (sc->adsr_cnt[note] != sc->adsr.off[1]) {
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// x-fade to release
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sc->adsr_amp[note] = adsr_env(sc, note);
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sc->adsr_amp[note] = adsr_env (sc, note);
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}
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sc->adsr_cnt[note] = sc->adsr.off[1] + 1;
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}
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else if (sus && sc->adsr_cnt[note] == sc->adsr.off[1]) {
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} else if (sus && sc->adsr_cnt[note] == sc->adsr.off[1]) {
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sc->adsr_cnt[note] = sc->adsr.off[1] + 1;
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}
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}
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else {
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} else {
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//printf("FORCE NOTE OFF: %d %d\n", vel, sus);
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/* note-on + off in same cycle */
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sc->miditable[note] = 0;
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sc->adsr_cnt[note] = 0;
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sc->phase[note] = -10;
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sc->adsr_cnt[note] = 0;
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sc->phase[note] = -10;
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return;
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}
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//printf("NOTE: %d (%d %d %d)\n", sc->adsr_cnt[note], sc->adsr.off[0], sc->adsr.off[1], sc->adsr.off[2]);
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// synthesize actual sound
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sc->synthesize(sc, note, vol, rs->freqs[note], n_samples, left, right);
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sc->synthesize (sc, note, vol, rs->freqs[note], n_samples, left, right);
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if (sc->adsr_cnt[note] == 0) {
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//printf("Note %d,%d released\n", chn, note);
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sc->midimsgs[note] = 0;
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sc->midimsgs[note] = 0;
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sc->miditable[note] = 0;
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sc->adsr_amp[note] = 0;
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sc->phase[note] = -10;
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sc->adsr_amp[note] = 0;
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sc->phase[note] = -10;
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sc->keycomp--;
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//printf("[off] Now %d keys active on chn %d\n", sc->keycomp, chn);
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}
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@ -299,29 +293,32 @@ process_key (void *synth,
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/* synthesize a BUFFER_SIZE_SAMPLES's of audio-data */
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static void
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synth_fragment (void *synth, const size_t n_samples, float *left, float *right)
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synth_fragment (void* synth, const size_t n_samples, float* left, float* right)
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{
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RSSynthesizer* rs = (RSSynthesizer*)synth;
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memset (left, 0, n_samples * sizeof(float));
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memset (right, 0, n_samples * sizeof(float));
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memset (left, 0, n_samples * sizeof (float));
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memset (right, 0, n_samples * sizeof (float));
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uint8_t keycomp = 0;
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int c,k;
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size_t i;
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int c, k;
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size_t i;
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for (c=0; c < 16; ++c) {
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for (k=0; k < 128; ++k) {
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if (rs->sc[c].miditable[k] == 0) continue;
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process_key(synth, c, k, n_samples, left, right);
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for (c = 0; c < 16; ++c) {
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for (k = 0; k < 128; ++k) {
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if (rs->sc[c].miditable[k] == 0) {
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continue;
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}
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process_key (synth, c, k, n_samples, left, right);
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}
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keycomp += rs->sc[c].keycomp;
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}
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#if 1 // key-compression
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float kctgt = 8.0 / (float)(keycomp + 7.0);
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if (kctgt < .5) kctgt = .5;
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if (kctgt < .5) kctgt = .5;
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if (kctgt > 1.0) kctgt = 1.0;
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const float _w = rs->kcfilt;
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for (i=0; i < n_samples; ++i) {
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for (i = 0; i < n_samples; ++i) {
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rs->kcgain += _w * (kctgt - rs->kcgain);
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left[i] *= rs->kcgain;
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right[i] *= rs->kcgain;
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@ -331,7 +328,7 @@ synth_fragment (void *synth, const size_t n_samples, float *left, float *right)
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}
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static void
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synth_reset_channel(RSSynthChannel* sc)
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synth_reset_channel (RSSynthChannel* sc)
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{
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int k;
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for (k = 0; k < 128; ++k) {
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@ -345,25 +342,25 @@ synth_reset_channel(RSSynthChannel* sc)
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}
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static void
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synth_reset(void *synth)
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synth_reset (void* synth)
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{
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RSSynthesizer* rs = (RSSynthesizer*)synth;
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int c;
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for (c=0; c < 16; ++c) {
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synth_reset_channel(&(rs->sc[c]));
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int c;
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for (c = 0; c < 16; ++c) {
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synth_reset_channel (&(rs->sc[c]));
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}
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rs->kcgain = 0;
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}
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static void
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synth_load (RSSynthChannel *sc, const double rate,
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SynthFunction synthesize,
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ADSRcfg const * const adsr)
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synth_load (RSSynthChannel* sc, const double rate,
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SynthFunction synthesize,
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ADSRcfg const* const adsr)
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{
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synth_reset_channel(sc);
|
||||
init_adsr(&sc->adsr, rate,
|
||||
adsr->tme[0], adsr->tme[1], adsr->tme[2],
|
||||
adsr->vol[0], adsr->vol[1]);
|
||||
synth_reset_channel (sc);
|
||||
init_adsr (&sc->adsr, rate,
|
||||
adsr->tme[0], adsr->tme[1], adsr->tme[2],
|
||||
adsr->vol[0], adsr->vol[1]);
|
||||
sc->synthesize = synthesize;
|
||||
}
|
||||
|
||||
|
@ -371,10 +368,10 @@ synth_load (RSSynthChannel *sc, const double rate,
|
|||
* internal abstraction of MIDI data handling
|
||||
*/
|
||||
static void
|
||||
synth_process_midi_event(void *synth, struct rmidi_event_t *ev)
|
||||
synth_process_midi_event (void* synth, struct rmidi_event_t* ev)
|
||||
{
|
||||
RSSynthesizer* rs = (RSSynthesizer*)synth;
|
||||
switch(ev->type) {
|
||||
switch (ev->type) {
|
||||
case NOTE_ON:
|
||||
rs->sc[ev->channel].midimsgs[ev->d.tone.note] |= 1;
|
||||
if (rs->sc[ev->channel].miditable[ev->d.tone.note] <= 0)
|
||||
|
@ -392,12 +389,12 @@ synth_process_midi_event(void *synth, struct rmidi_event_t *ev)
|
|||
/* 0x00 and 0x20 are used for BANK select */
|
||||
} else if (ev->d.control.param == 64) {
|
||||
/* damper pedal*/
|
||||
rs->sc[ev->channel].sustain = ev->d.control.value < 64 ? 0: 1;
|
||||
rs->sc[ev->channel].sustain = ev->d.control.value < 64 ? 0 : 1;
|
||||
} else if (ev->d.control.param == 121) {
|
||||
/* reset all controllers */
|
||||
} else if (ev->d.control.param == 120 || ev->d.control.param == 123) {
|
||||
/* Midi panic: 120: all sound off, 123: all notes off*/
|
||||
synth_reset_channel(&(rs->sc[ev->channel]));
|
||||
synth_reset_channel (&(rs->sc[ev->channel]));
|
||||
} else if (ev->d.control.param >= 120) {
|
||||
/* params 122-127 are reserved - skip them. */
|
||||
}
|
||||
|
@ -422,23 +419,23 @@ synth_process_midi_event(void *synth, struct rmidi_event_t *ev)
|
|||
* @return end of buffer (written + nframes)
|
||||
*/
|
||||
static uint32_t
|
||||
synth_sound (void *synth, uint32_t written, const uint32_t nframes, float **out)
|
||||
synth_sound (void* synth, uint32_t written, const uint32_t nframes, float** out)
|
||||
{
|
||||
RSSynthesizer* rs = (RSSynthesizer*)synth;
|
||||
|
||||
while (written < nframes) {
|
||||
uint32_t nremain = nframes - written;
|
||||
|
||||
if (rs->boffset >= BUFFER_SIZE_SAMPLES) {
|
||||
const uint32_t tosynth = MIN(BUFFER_SIZE_SAMPLES, nremain);
|
||||
rs->boffset = BUFFER_SIZE_SAMPLES - tosynth;
|
||||
synth_fragment(rs, tosynth, &(rs->buf[0][rs->boffset]), &(rs->buf[1][rs->boffset]));
|
||||
if (rs->boffset >= BUFFER_SIZE_SAMPLES) {
|
||||
const uint32_t tosynth = MIN (BUFFER_SIZE_SAMPLES, nremain);
|
||||
rs->boffset = BUFFER_SIZE_SAMPLES - tosynth;
|
||||
synth_fragment (rs, tosynth, &(rs->buf[0][rs->boffset]), &(rs->buf[1][rs->boffset]));
|
||||
}
|
||||
|
||||
uint32_t nread = MIN(nremain, (BUFFER_SIZE_SAMPLES - rs->boffset));
|
||||
uint32_t nread = MIN (nremain, (BUFFER_SIZE_SAMPLES - rs->boffset));
|
||||
|
||||
memcpy(&out[0][written], &rs->buf[0][rs->boffset], nread*sizeof(float));
|
||||
memcpy(&out[1][written], &rs->buf[1][rs->boffset], nread*sizeof(float));
|
||||
memcpy (&out[0][written], &rs->buf[0][rs->boffset], nread * sizeof (float));
|
||||
memcpy (&out[1][written], &rs->buf[1][rs->boffset], nread * sizeof (float));
|
||||
|
||||
written += nread;
|
||||
rs->boffset += nread;
|
||||
|
@ -454,83 +451,89 @@ synth_sound (void *synth, uint32_t written, const uint32_t nframes, float **out)
|
|||
* @param size number of bytes in the midi-message
|
||||
*/
|
||||
static void
|
||||
synth_parse_midi (void *synth, const uint8_t *data, const size_t size)
|
||||
synth_parse_midi (void* synth, const uint8_t* data, const size_t size)
|
||||
{
|
||||
if (size < 2 || size > 3) return;
|
||||
if (size < 2 || size > 3)
|
||||
return;
|
||||
// All messages need to be 3 bytes; except program-changes: 2bytes.
|
||||
if (size == 2 && (data[0] & 0xf0) != 0xC0) return;
|
||||
if (size == 2 && (data[0] & 0xf0) != 0xC0)
|
||||
return;
|
||||
|
||||
struct rmidi_event_t ev;
|
||||
|
||||
ev.channel = data[0]&0x0f;
|
||||
ev.channel = data[0] & 0x0f;
|
||||
switch (data[0] & 0xf0) {
|
||||
case 0x80:
|
||||
ev.type=NOTE_OFF;
|
||||
ev.d.tone.note=data[1]&0x7f;
|
||||
ev.d.tone.velocity=data[2]&0x7f;
|
||||
ev.type = NOTE_OFF;
|
||||
ev.d.tone.note = data[1] & 0x7f;
|
||||
ev.d.tone.velocity = data[2] & 0x7f;
|
||||
break;
|
||||
case 0x90:
|
||||
ev.type=NOTE_ON;
|
||||
ev.d.tone.note=data[1]&0x7f;
|
||||
ev.d.tone.velocity=data[2]&0x7f;
|
||||
ev.type = NOTE_ON;
|
||||
ev.d.tone.note = data[1] & 0x7f;
|
||||
ev.d.tone.velocity = data[2] & 0x7f;
|
||||
if (ev.d.tone.velocity == 0) {
|
||||
ev.type=NOTE_OFF;
|
||||
ev.type = NOTE_OFF;
|
||||
}
|
||||
break;
|
||||
case 0xB0:
|
||||
ev.type=CONTROL_CHANGE;
|
||||
ev.d.control.param=data[1]&0x7f;
|
||||
ev.d.control.value=data[2]&0x7f;
|
||||
ev.type = CONTROL_CHANGE;
|
||||
ev.d.control.param = data[1] & 0x7f;
|
||||
ev.d.control.value = data[2] & 0x7f;
|
||||
break;
|
||||
case 0xC0:
|
||||
ev.type=PROGRAM_CHANGE;
|
||||
ev.d.control.value=data[1]&0x7f;
|
||||
ev.type = PROGRAM_CHANGE;
|
||||
ev.d.control.value = data[1] & 0x7f;
|
||||
break;
|
||||
default:
|
||||
return;
|
||||
}
|
||||
synth_process_midi_event(synth, &ev);
|
||||
synth_process_midi_event (synth, &ev);
|
||||
}
|
||||
|
||||
static const uint8_t jingle[] = { 71 ,71 ,71 ,71 ,71 ,71 ,71 ,74 ,67 ,69 ,71 ,72 ,72 ,72 ,72 ,72 ,71 ,71 ,71 ,71 ,71 ,69 ,69 ,71 ,69 ,74 ,71 ,71 ,71 ,71 ,71 ,71 ,71 ,74 ,67 ,69 ,71 ,72 ,72 ,72 ,72 ,72 ,71 ,71 ,71 ,71 ,74 ,74 ,72 ,69 ,67 ,62 ,62 ,71 ,69 ,67 ,62 ,62 ,62 ,62 ,71 ,69 ,67 ,64 ,64 ,64 ,72 ,71 ,69 ,66 ,74 ,76 ,74 ,72 ,69 ,71 ,62 ,62 ,71 ,69 ,67 ,62 ,62 ,62 ,62 ,71 ,69 ,67 ,64 ,64 ,64 ,72 ,71 ,69 ,74 ,74 ,74 ,74 ,76 ,74 ,72 ,69 ,67 ,74 ,71 ,71 ,71 ,71 ,71 ,71 ,71 ,74 ,67 ,69 ,71 ,72 ,72 ,72 ,72 ,72 ,71 ,71 ,71 ,71 ,71 ,69 ,69 ,71 ,69 ,74 ,71 ,71 ,71 ,71 ,71 ,71 ,71 ,74 ,67 ,69 ,71 ,72 ,72 ,72 ,72 ,72 ,71 ,71 ,71 ,71 ,74 ,74 ,72 ,69 ,67 };
|
||||
static const uint8_t jingle[] = { 71, 71, 71, 71, 71, 71, 71, 74, 67, 69, 71, 72, 72, 72, 72, 72, 71, 71, 71, 71, 71, 69, 69, 71, 69, 74, 71, 71, 71, 71, 71, 71, 71, 74, 67, 69, 71, 72, 72, 72, 72, 72, 71, 71, 71, 71, 74, 74, 72, 69, 67, 62, 62, 71, 69, 67, 62, 62, 62, 62, 71, 69, 67, 64, 64, 64, 72, 71, 69, 66, 74, 76, 74, 72, 69, 71, 62, 62, 71, 69, 67, 62, 62, 62, 62, 71, 69, 67, 64, 64, 64, 72, 71, 69, 74, 74, 74, 74, 76, 74, 72, 69, 67, 74, 71, 71, 71, 71, 71, 71, 71, 74, 67, 69, 71, 72, 72, 72, 72, 72, 71, 71, 71, 71, 71, 69, 69, 71, 69, 74, 71, 71, 71, 71, 71, 71, 71, 74, 67, 69, 71, 72, 72, 72, 72, 72, 71, 71, 71, 71, 74, 74, 72, 69, 67 };
|
||||
|
||||
static void
|
||||
synth_parse_xmas(void *synth, const uint8_t *data, const size_t size)
|
||||
synth_parse_xmas (void* synth, const uint8_t* data, const size_t size)
|
||||
{
|
||||
RSSynthesizer* rs = (RSSynthesizer*)synth;
|
||||
if (size < 2 || size > 3) return;
|
||||
if (size < 2 || size > 3)
|
||||
return;
|
||||
// All messages need to be 3 bytes; except program-changes: 2bytes.
|
||||
if (size == 2 && (data[0] & 0xf0) != 0xC0) return;
|
||||
if (size == 2 && (data[0] & 0xf0) != 0xC0)
|
||||
return;
|
||||
|
||||
struct rmidi_event_t ev;
|
||||
|
||||
ev.channel = data[0]&0x0f;
|
||||
ev.channel = data[0] & 0x0f;
|
||||
switch (data[0] & 0xf0) {
|
||||
case 0x80:
|
||||
ev.type=NOTE_OFF;
|
||||
ev.d.tone.note=jingle[rs->xmas_off++];
|
||||
ev.d.tone.velocity=data[2]&0x7f;
|
||||
if (rs->xmas_off >= sizeof(jingle)) rs->xmas_off = 0;
|
||||
ev.type = NOTE_OFF;
|
||||
ev.d.tone.note = jingle[rs->xmas_off++];
|
||||
ev.d.tone.velocity = data[2] & 0x7f;
|
||||
if (rs->xmas_off >= sizeof (jingle))
|
||||
rs->xmas_off = 0;
|
||||
break;
|
||||
case 0x90:
|
||||
ev.type=NOTE_ON;
|
||||
ev.d.tone.note=jingle[rs->xmas_on++];
|
||||
ev.d.tone.velocity=data[2]&0x7f;
|
||||
if (rs->xmas_on >= sizeof(jingle)) rs->xmas_on = 0;
|
||||
ev.type = NOTE_ON;
|
||||
ev.d.tone.note = jingle[rs->xmas_on++];
|
||||
ev.d.tone.velocity = data[2] & 0x7f;
|
||||
if (rs->xmas_on >= sizeof (jingle))
|
||||
rs->xmas_on = 0;
|
||||
break;
|
||||
case 0xB0:
|
||||
ev.type=CONTROL_CHANGE;
|
||||
ev.d.control.param=data[1]&0x7f;
|
||||
ev.d.control.value=data[2]&0x7f;
|
||||
ev.type = CONTROL_CHANGE;
|
||||
ev.d.control.param = data[1] & 0x7f;
|
||||
ev.d.control.value = data[2] & 0x7f;
|
||||
break;
|
||||
case 0xC0:
|
||||
ev.type=PROGRAM_CHANGE;
|
||||
ev.d.control.value=data[1]&0x7f;
|
||||
ev.type = PROGRAM_CHANGE;
|
||||
ev.d.control.value = data[1] & 0x7f;
|
||||
break;
|
||||
default:
|
||||
return;
|
||||
}
|
||||
synth_process_midi_event(synth, &ev);
|
||||
synth_process_midi_event (synth, &ev);
|
||||
}
|
||||
/**
|
||||
* initialize the synth
|
||||
|
@ -541,23 +544,24 @@ synth_parse_xmas(void *synth, const uint8_t *data, const size_t size)
|
|||
* @param rate sample-rate
|
||||
*/
|
||||
static void
|
||||
synth_init(void* synth, double rate) {
|
||||
RSSynthesizer* rs = (RSSynthesizer*)synth;
|
||||
rs->rate = rate;
|
||||
rs->boffset = BUFFER_SIZE_SAMPLES;
|
||||
synth_init (void* synth, double rate)
|
||||
{
|
||||
RSSynthesizer* rs = (RSSynthesizer*)synth;
|
||||
rs->rate = rate;
|
||||
rs->boffset = BUFFER_SIZE_SAMPLES;
|
||||
const float tuning = 440;
|
||||
int c,k;
|
||||
for (k=0; k < 128; k++) {
|
||||
rs->freqs[k] = (tuning / 32.0f) * powf(2, (k - 9.0) / 12.0) / rate;
|
||||
assert(rs->freqs[k] < M_PI/2); // otherwise spatialization may phase out..
|
||||
int c, k;
|
||||
for (k = 0; k < 128; k++) {
|
||||
rs->freqs[k] = (tuning / 32.0f) * powf (2, (k - 9.0) / 12.0) / rate;
|
||||
assert (rs->freqs[k] < M_PI / 2); // otherwise spatialization may phase out..
|
||||
}
|
||||
rs->kcfilt = 12.0 / rate;
|
||||
synth_reset(synth);
|
||||
synth_reset (synth);
|
||||
|
||||
for (c=0; c < 16; c++) {
|
||||
synth_load(&rs->sc[c], rate, &synthesize_sineP, &piano_adsr);
|
||||
for (c = 0; c < 16; c++) {
|
||||
synth_load (&rs->sc[c], rate, &synthesize_sineP, &piano_adsr);
|
||||
}
|
||||
rs->xmas_on = 0;
|
||||
rs->xmas_on = 0;
|
||||
rs->xmas_off = 0;
|
||||
}
|
||||
|
||||
|
@ -572,9 +576,9 @@ synth_init(void* synth, double rate) {
|
|||
* @return synth-handle
|
||||
*/
|
||||
static void*
|
||||
synth_alloc(void)
|
||||
synth_alloc (void)
|
||||
{
|
||||
return calloc(1, sizeof(RSSynthesizer));
|
||||
return calloc (1, sizeof (RSSynthesizer));
|
||||
}
|
||||
|
||||
/**
|
||||
|
@ -582,7 +586,7 @@ synth_alloc(void)
|
|||
* @param synth synth-handle
|
||||
*/
|
||||
static void
|
||||
synth_free(void *synth)
|
||||
synth_free (void* synth)
|
||||
{
|
||||
free(synth);
|
||||
free (synth);
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue