Merge 4161f6b124 into c336bdd7c3

5 months ago · 16fc7c36ba
parent c336bdd7c3 4161f6b124
commit 16fc7c36ba
2 changed files with 156 additions and 2 deletions
--- a/src/uClock.cpp
+++ b/src/uClock.cpp
@ -128,6 +128,7 @@ uClockClass::uClockClass()
    onPPQNCallback = nullptr;
    onSync24Callback = nullptr;
    onStepCallback = nullptr;
    onTrackStepCallback = nullptr;
    onClockStartCallback = nullptr;
    onClockStopCallback = nullptr;
    // first ppqn references calculus
@ -274,6 +275,11 @@ void uClockClass::resetCounters()
    ext_clock_tick = 0;
    ext_clock_us = 0;
    ext_interval_idx = 0;
    for (uint32_t t=0; t < MAX_TRACKS; t++) {
        mod_track_step_counter[t] = 0;
        track_step_counter[t] = 0;
    }
    for (uint8_t i=0; i < EXT_INTERVAL_BUFFER_SIZE; i++) {
        ext_interval_buffer[i] = 0;
@ -291,11 +297,21 @@ void uClockClass::setShuffle(bool active)
    ATOMIC(shuffle.active = active)
 }
 void uClockClass::setTrackShuffle(uint8_t track, bool active)
 {
    ATOMIC(track_shuffles[track].shuffle.active = active)
 }
 bool uClockClass::isShuffled()
 {
    return shuffle.active;
 }
 bool uClockClass::isTrackShuffled(uint8_t track)
 {
    return track_shuffles[track].shuffle.active;
 }
 void uClockClass::setShuffleSize(uint8_t size)
 {
    if (size > MAX_SHUFFLE_TEMPLATE_SIZE)
@ -303,6 +319,13 @@ void uClockClass::setShuffleSize(uint8_t size)
    ATOMIC(shuffle.size = size)
 }
 void uClockClass::setTrackShuffleSize(uint8_t track, uint8_t size)
 {
    if (size > MAX_SHUFFLE_TEMPLATE_SIZE)
        size = MAX_SHUFFLE_TEMPLATE_SIZE;
    ATOMIC(track_shuffles[track].shuffle.size = size)
 }
 void uClockClass::setShuffleData(uint8_t step, int8_t tick)
 {
    if (step >= MAX_SHUFFLE_TEMPLATE_SIZE)
@ -310,6 +333,13 @@ void uClockClass::setShuffleData(uint8_t step, int8_t tick)
    ATOMIC(shuffle.step[step] = tick)
 }
 void uClockClass::setTrackShuffleData(uint8_t track, uint8_t step, int8_t tick)
 {
    if (step >= MAX_SHUFFLE_TEMPLATE_SIZE)
        return;
    ATOMIC(track_shuffles[track].shuffle.step[step] = tick)
 }
 void uClockClass::setShuffleTemplate(int8_t * shuff, uint8_t size)
 {
    //uint8_t size = sizeof(shuff) / sizeof(shuff[0]);
@ -321,11 +351,27 @@ void uClockClass::setShuffleTemplate(int8_t * shuff, uint8_t size)
    }
 }
 void uClockClass::setTrackShuffleTemplate(uint8_t track, int8_t * shuff, uint8_t size)
 {
    //uint8_t size = sizeof(shuff) / sizeof(shuff[0]);
    if (size > MAX_SHUFFLE_TEMPLATE_SIZE)
        size = MAX_SHUFFLE_TEMPLATE_SIZE;
    ATOMIC(track_shuffles[track].shuffle.size = size)
    for (uint8_t i=0; i < size; i++) {
        setTrackShuffleData(track, i, shuff[i]);
    }
 }
 int8_t uClockClass::getShuffleLength()
 {
    return shuffle_length_ctrl;
 }
 int8_t uClockClass::getTrackShuffleLength(uint8_t track)
 {
    return track_shuffles[track].shuffle_length_ctrl;
 }
 bool inline uClockClass::processShuffle()
 {
    if (!shuffle.active) {
@ -345,8 +391,11 @@ bool inline uClockClass::processShuffle()
    if (shff >= 0) {
        mod_shuffle = mod_step_counter - shff;
        // any late shuffle? we should skip next mod_step_counter == 0
-        if (last_shff < 0 && mod_step_counter != 1)
+        if (last_shff < 0 && mod_step_counter != 1) {
-            return false; 
+            if (shuffle_shoot_ctrl == true)
                shuffle_shoot_ctrl = false;
            return false;
        }
    } else if (shff < 0) {
        mod_shuffle = mod_step_counter - (mod_step_ref + shff);
        //if (last_shff < 0 && mod_step_counter != 1)
@ -371,6 +420,56 @@ bool inline uClockClass::processShuffle()
    return false;
 }
 bool inline uClockClass::processTrackShuffle(uint8_t track)
 {
    if (!track_shuffles[track].shuffle.active) {
        return mod_track_step_counter[track] == 0;
    }
    int8_t mod_shuffle = 0;
    // check shuffle template of current
    int8_t shff = track_shuffles[track].shuffle.step[track_step_counter[track]%track_shuffles[track].shuffle.size];
    if (track_shuffles[track].shuffle_shoot_ctrl == false && mod_track_step_counter[track] == 0)
        track_shuffles[track].shuffle_shoot_ctrl = true;
    if (shff >= 0) {
        mod_shuffle = mod_track_step_counter[track] - shff;
        // any late shuffle? we should skip next mod_track_step_counter == 0
        if (track_shuffles[track].last_shff < 0 && mod_track_step_counter[track] != 1) {           
            if (track_shuffles[track].shuffle_shoot_ctrl == true)
                track_shuffles[track].shuffle_shoot_ctrl = false;
            return false;
        }
    } else if (shff < 0) {
        mod_shuffle = mod_track_step_counter[track] - (mod_step_ref + shff);
        track_shuffles[track].shuffle_shoot_ctrl = true;
    }
    track_shuffles[track].last_shff = shff;
    // shuffle_shoot_ctrl helps keep track if we have shoot or not a note for the step space of ppqn/4 pulses
    if (mod_shuffle == 0 && track_shuffles[track].shuffle_shoot_ctrl == true) {        
        track_shuffles[track].shuffle_shoot_ctrl = false;
        // // keep track of next note shuffle for current note lenght control
        track_shuffles[track].shuffle_length_ctrl = track_shuffles[track].shuffle.step[(track_step_counter[track]+1)%track_shuffles[track].shuffle.size];
        if (shff > 0)
            track_shuffles[track].shuffle_length_ctrl -= shff;
        if (shff < 0)
            track_shuffles[track].shuffle_length_ctrl += shff;
        return true;
    }
    return false;
 }
 // it is expected to be called in 24PPQN 
 void uClockClass::handleExternalClock() 
 {
@ -458,6 +557,24 @@ void uClockClass::handleTimerInt()
        onPPQNCallback(tick);
    }
    for (uint8_t tm = 0; tm < MAX_TRACKS; tm++)
    {
        // reset track step mod counter reference ?
        if (mod_track_step_counter[tm] == mod_step_ref)
            mod_track_step_counter[tm] = 0;
    }
    if (onTrackStepCallback) {
        for (uint8_t t = 0; t < MAX_TRACKS; t++)
        {
            if (processTrackShuffle(t)) {        
                onTrackStepCallback(t, track_step_counter[t]);
                // going forward to the next step call
                ++track_step_counter[t];
            }
        }
    }
    // reset step mod counter reference ?
    if (mod_step_counter == mod_step_ref)
        mod_step_counter = 0;
@ -478,6 +595,11 @@ void uClockClass::handleTimerInt()
    // increment mod counters
    ++mod24_counter;
    ++mod_step_counter;
    for (uint8_t tsm = 0; tsm < MAX_TRACKS; tsm++)
    {
        ++mod_track_step_counter[tsm];
    }
 }
 // elapsed time support
--- a/src/uClock.h
+++ b/src/uClock.h
@ -44,6 +44,10 @@ namespace umodular { namespace clock {
 // 48 PPQN (12 pulses per step)
 // 96 PPQN (24 pulses per step)
 // For track-based sequencers, this controls how many tracks can be 
 // used with the onTrackStepCallback
 #define MAX_TRACKS 16
 // min: -(ppqn/4)-1 step, max: (ppqn/4)-1 steps  
 // adjust the size of you template if more than 16 shuffle step info needed
 #define MAX_SHUFFLE_TEMPLATE_SIZE   16
@ -53,6 +57,13 @@ typedef struct {
    int8_t step[MAX_SHUFFLE_TEMPLATE_SIZE] = {0};
 } SHUFFLE_TEMPLATE;
 typedef struct {
    volatile SHUFFLE_TEMPLATE shuffle;
    int8_t last_shff = 0;
    bool shuffle_shoot_ctrl = true;
    volatile int8_t shuffle_length_ctrl = 0;
 } TRACK_SHUFFLE;
 // for smooth slave tempo calculate display you should raise this value 
 // in between 64 to 128.
 // note: this doesn't impact on sync time, only display time getTempo()
@ -103,6 +114,10 @@ class uClockClass {
        void setOnStep(void (*callback)(uint32_t step)) {
            onStepCallback = callback;
        }
        void setTrackOnStep(void (*callback)(uint8_t track, uint32_t step)) {
            onTrackStepCallback = callback;
        }
        void setOnSync24(void (*callback)(uint32_t tick)) {
            onSync24Callback = callback;
@ -144,8 +159,19 @@ class uClockClass {
        void setShuffleSize(uint8_t size);
        void setShuffleData(uint8_t step, int8_t tick);
        void setShuffleTemplate(int8_t * shuff, uint8_t size);
        // use this to know how many positive or negative ticks to add to current note length
        int8_t getShuffleLength();
        // track shuffle
        void setTrackShuffle(uint8_t track, bool active);
        bool isTrackShuffled(uint8_t track);
        void setTrackShuffleSize(uint8_t track, uint8_t size);
        void setTrackShuffleData(uint8_t track, uint8_t step, int8_t tick);
        void setTrackShuffleTemplate(uint8_t track, int8_t * shuff, uint8_t size);
        // use this to know how many positive or negative ticks to add to current note length
        int8_t getTrackShuffleLength(uint8_t track);
        // todo!
        void tap();
@ -165,9 +191,11 @@ class uClockClass {
        // shuffle
        bool inline processShuffle();
        bool inline processTrackShuffle(uint8_t track);
        void (*onPPQNCallback)(uint32_t tick);
        void (*onStepCallback)(uint32_t step);
        void (*onTrackStepCallback)(uint8_t track, uint32_t step);
        void (*onSync24Callback)(uint32_t tick);
        void (*onClockStartCallback)();
        void (*onClockStopCallback)();
@ -180,8 +208,10 @@ class uClockClass {
        uint8_t mod24_counter;
        uint8_t mod24_ref;
        uint8_t mod_step_counter;
        uint8_t mod_track_step_counter[MAX_TRACKS];
        uint8_t mod_step_ref;
        uint32_t step_counter; // should we go uint16_t?
        uint32_t track_step_counter[MAX_TRACKS];
        // external clock control
        volatile uint32_t ext_clock_us;
@ -198,6 +228,8 @@ class uClockClass {
        uint16_t ext_interval_idx;
        // shuffle implementation
        TRACK_SHUFFLE track_shuffles[MAX_TRACKS];
        volatile SHUFFLE_TEMPLATE shuffle;
        int8_t last_shff = 0;
        bool shuffle_shoot_ctrl = true;