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Merge branch 'main' of https://git.pinkduck.xyz/adam/libGravity

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This commit is contained in:
Adam Wonak
2025-07-04 10:44:08 -07:00
parent ae726313a0 14aad8285d
commit b8cdd97261
7 changed files with 216 additions and 119 deletions
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26
examples/Gravity/Gravity.ino
View File

@ -167,11 +167,24 @@ void HandleEncoderPressed() {
// Check if leaving editing mode should apply a selection.
if (app.editing_param) {
if (app.selected_channel == 0) { // main page
// TODO: rewrite as switch
if (app.selected_param == PARAM_MAIN_ENCODER_DIR) {
bool reversed = app.selected_sub_param == 1;
gravity.encoder.SetReverseDirection(reversed);
}
// Reset state
if (app.selected_param == PARAM_MAIN_SAVE_DATA) {
if (app.selected_sub_param < MAX_SAVE_SLOTS) {
app.selected_save_slot = app.selected_sub_param;
stateManager.saveData(app);
}
}
if (app.selected_param == PARAM_MAIN_LOAD_DATA) {
if (app.selected_sub_param < MAX_SAVE_SLOTS) {
app.selected_save_slot = app.selected_sub_param;
stateManager.loadData(app, app.selected_save_slot);
InitGravity(app);
}
}
if (app.selected_param == PARAM_MAIN_RESET_STATE) {
if (app.selected_sub_param == 0) { // Reset
stateManager.reset(app);
@ -179,10 +192,11 @@ void HandleEncoderPressed() {
}
}
}
// Only mark dirty when leaving editing mode.
// Only mark dirty and reset selected_sub_param when leaving editing mode.
stateManager.markDirty();
}
app.selected_sub_param = 0;
}
app.editing_param = !app.editing_param;
app.refresh_screen = true;
}
@ -225,7 +239,6 @@ void editMainParameter(int val) {
gravity.clock.SetTempo(gravity.clock.Tempo() + val);
app.tempo = gravity.clock.Tempo();
break;
case PARAM_MAIN_SOURCE: {
byte source = static_cast<int>(app.selected_source);
updateSelection(source, val, Clock::SOURCE_LAST);
@ -240,10 +253,15 @@ void editMainParameter(int val) {
if (app.selected_pulse == Clock::PULSE_NONE) {
gravity.pulse.Low();
}
break;
}
case PARAM_MAIN_ENCODER_DIR:
updateSelection(app.selected_sub_param, val, 2);
break;
case PARAM_MAIN_SAVE_DATA:
case PARAM_MAIN_LOAD_DATA:
updateSelection(app.selected_sub_param, val, MAX_SAVE_SLOTS + 1);
break;
case PARAM_MAIN_RESET_STATE:
updateSelection(app.selected_sub_param, val, 2);
break;

7
examples/Gravity/app_state.h
View File

@ -12,9 +12,10 @@ struct AppState {
bool refresh_screen = true;
bool editing_param = false;
byte selected_param = 0;
byte selected_sub_param = 0;
byte selected_sub_param = 0; // Temporary value for editing params.
byte selected_channel = 0; // 0=tempo, 1-6=output channel
byte selected_shuffle = 0;
byte selected_swing = 0;
byte selected_save_slot = 0; // The currently active save slot.
Clock::Source selected_source = Clock::SOURCE_INTERNAL;
Clock::Pulse selected_pulse = Clock::PULSE_PPQN_24;
Channel channel[Gravity::OUTPUT_COUNT];
@ -31,6 +32,8 @@ enum ParamsMainPage : uint8_t {
PARAM_MAIN_SOURCE,
PARAM_MAIN_PULSE,
PARAM_MAIN_ENCODER_DIR,
PARAM_MAIN_SAVE_DATA,
PARAM_MAIN_LOAD_DATA,
PARAM_MAIN_RESET_STATE,
PARAM_MAIN_LAST,
};

15
examples/Gravity/channel.h
View File

@ -28,8 +28,7 @@ static const int CLOCK_MOD[MOD_CHOICE_SIZE] PROGMEM = {
// Internal Clock Unity
1,
// Divisors
2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 16, 24, 32, 64, 128
};
2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 16, 24, 32, 64, 128};
// This represents the number of clock pulses for a 96 PPQN clock source
// that match the above div/mult mods.
@ -39,8 +38,9 @@ static const int CLOCK_MOD_PULSES[MOD_CHOICE_SIZE] PROGMEM = {
// Internal Clock Pulses
96,
// Divisor Pulses (96 * X)
192, 288, 384, 480, 576, 672, 768, 864, 960, 1056, 1152, 1536, 2304, 3072, 6144, 12288
};
192, 288, 384, 480, 576, 672, 768, 864, 960, 1056, 1152, 1536, 2304, 3072, 6144, 12288};
static const byte DEFAULT_CLOCK_MOD_INDEX = 8; // x1 or 96 PPQN.
class Channel {
public:
@ -50,7 +50,7 @@ class Channel {
void Init() {
// Reset base values to their defaults
base_clock_mod_index = 7;
base_clock_mod_index = DEFAULT_CLOCK_MOD_INDEX;
base_probability = 100;
base_duty_cycle = 50;
base_offset = 0;
@ -64,6 +64,9 @@ class Channel {
cvmod_offset = base_offset;
cvmod_swing = base_swing;
cv1_dest = CV_DEST_NONE;
cv2_dest = CV_DEST_NONE;
pattern.Init(DEFAULT_PATTERN);
// Calcule the clock mod pulses on init.
@ -211,7 +214,7 @@ class Channel {
return;
}
int dest_mod = _calculateMod(CV_DEST_MOD, cv1_val, cv2_val, -(MOD_CHOICE_SIZE/2), MOD_CHOICE_SIZE/2);
int dest_mod = _calculateMod(CV_DEST_MOD, cv1_val, cv2_val, -(MOD_CHOICE_SIZE / 2), MOD_CHOICE_SIZE / 2);
cvmod_clock_mod_index = constrain(base_clock_mod_index + dest_mod, 0, 100);
int prob_mod = _calculateMod(CV_DEST_PROB, cv1_val, cv2_val, -50, 50);

98
examples/Gravity/display.h
View File

@ -4,6 +4,7 @@
#include <Arduino.h>
#include "app_state.h"
#include "save_state.h"
//
// UI Display functions for drawing the UI to the OLED display.
@ -33,32 +34,33 @@ const uint8_t TEXT_FONT[437] U8G2_FONT_SECTION("velvetscreen") PROGMEM =
/*
* Font: STK-L.bdf 36pt
* https://stncrn.github.io/u8g2-unifont-helper/
* "%/0123456789ACDEFINORSTUVXx"
* "%/0123456789ABCDEFILNORSTUVXx"
*/
const uint8_t LARGE_FONT[715] U8G2_FONT_SECTION("stk-l") =
"\33\0\4\4\4\5\2\1\6\20\30\0\0\27\0\0\0\1\77\0\0\2\256%'\17\37\313\330R#&"
"\32!F\14\211I\310\24!\65\204(MF\21)Cd\304\10\62b\14\215\60Vb\334\20\0/\14"
"\272\336\336d\244\350\263q\343\0\60\37|\377\216!%*\10\35\263\253ChD\30\21bB\14\242S"
"\306lv\210\204\22Ef\0\61\24z\337\322\60R\205\314\234\31\61F\310\270\371\177\224\42\3\62\33|"
"\377\216)\64*\10\35\63\66r\206\304\314`c\252\34\301\221\263|\360\300\0\63\34|\377\216)\64*"
"\10\35\63\66r \71\332YIr\226\306\16\221P\203\312\14\0\64 |\377\226\220AC\306\20\31B"
"f\310\240\21\204F\214\32\61j\304(cv\366\200\305\312\371\0\65\32|\377\206\212-F\316\27\204\224"
"\254\30\65t\344,\215\35\42\241\6\225\31\0\66\33}\17\317\251\64+\206\235\63:/\314,aA\352"
"\234\335\235\42\261&\325\31\0\67\23|\377\302\212\7)\347Crt\70\345\300\221\363\16\0\70 |\377"
"\216)\64*\10\35\263\354\20\11\42d\20\235BC\204\4\241cvv\210\204\32Tf\0\71\32|\377"
"\216)\64*\10\35\263\263C$\226\250I\71_\14\42\241\6\225\31\0A\26}\17S\271Si(\31"
"\65d\324\210q\366\356\301w\366\273\1C\27}\17\317\251\64K\10!\63:\377\247\304F\20\42\261F"
"\21\22\0D\33}\17C\42\65KF\15\31\66b\330\210q\366\77;\66b\24\211%j\22\1E\21"
"|\377\302\7)\347%\42\214F\316/\37<\60F\20|\377\302\7)\347\313\64\331\214\234\177\11\0I"
"\7so\302\37$N#}\17\203@s\346\216\35C\205*Q\42\23cL\214\61\62\304\310\20\63#"
"\314\214\60\224\25f\327\231\33O\26}\17\317\251\64KF\215\30g\377\337\215\30\65dM\252\63\0R"
"\61\216\37\203\242\65L\206\221\30\67b\334\210q#\306\215\30\67b\30\211QD\230(J\65d\330\230"
"Qc\10\315j\314(\42\303H\214\33\61\356\340\0S\42\216\37\317\261DKH\221\30\67b\334\210\261"
"c)M\226-\331\301c\307\32\64\207\212D\223Uh\0T\15}\17\303\7\251\206\316\377\377\12\0U"
"\21|\377\302\60\373\377\317F\14\32\242\6\225\31\0V\26\177\375\302H\373\377\345\210qCH\221\241\212"
"\4\271\223e\207\1X)~\37\303@\203\307H\14\33B\210\14\21RC\206\241\63h\222(I\203\346"
"\220\15\31E\204\14!\42\303F\20;h\341\0x\24\312\336\302 CGH\240\61E\312\14\222)\6"
"Y\64\0\0\0\0\4\377\377\0";
const uint8_t LARGE_FONT[766] U8G2_FONT_SECTION("stk-l") =
"\35\0\4\4\4\5\3\1\6\20\30\0\0\27\0\0\0\1\77\0\0\2\341%'\17;\226\261\245FL"
"\64B\214\30\22\223\220)Bj\10Q\232\214\42R\206\310\210\21d\304\30\32a\254\304\270!\0/\14"
"\272\272\275\311H\321g\343\306\1\60\37|\373\35CJT\20:fW\207\320\210\60\42\304\204\30D\247"
"\214\331\354\20\11%\212\314\0\61\24z\275\245a\244\12\231\71\63b\214\220q\363\377(E\6\62\33|"
"\373\35ShT\20:fl\344\14\211\231\301\306T\71\202#g\371\340\201\1\63\34|\373\35ShT"
"\20:fl\344@r\264\263\222\344,\215\35\42\241\6\225\31\0\64 |\373-!\203\206\214!\62\204"
"\314\220A#\10\215\30\65b\324\210Q\306\354\354\1\213\225\363\1\65\32|\373\15\25[\214\234/\10)"
"Y\61j\350\310Y\32;DB\15*\63\0\66\33}\33\236SiV\14;gt^\230Y\302\202\324"
"\71\273;EbM\252\63\0\67\23|\373\205\25\17R\316\207\344\350p\312\201#\347\35\0\70 |\373"
"\35ShT\20:f\331!\22D\310 :\205\206\10\11B\307\354\354\20\11\65\250\314\0\71\32|\373"
"\35ShT\20:fg\207H,Q\223r\276\30DB\15*\63\0A\26}\33\246r\247\322P\62"
"j\310\250\21\343\354\335\203\357\354w\3B$}\33\206Dj\226\214\42\61l\304\260\21\303F\14\33\61"
"\212\304\222MF\221\30v\316\236=\10\301b\11\0C\27}\33\236Si\226\20Bft\376O\211\215"
" Db\215\42$\0D\33}\33\206Dj\226\214\32\62l\304\260\21\343\354\177vl\304(\22K\324"
"$\2E\22|\373\205\17R\316KD\30\215\234_>x`\0F\20|\373\205\17R\316\227i\262\31"
"\71\377\22\0I\7s\333\204\77HL\15{\333\205\201\363\377\77|\360`\0N$}\33\6\201\346\314"
"\35;\206\12U\242D&\306\230\30cd\210\221!fF\230\31a(+\314\256\63\67\0O\26}\33"
"\236Si\226\214\32\61\316\376\277\33\61j\310\232Tg\0R\61\216;\6Ek\230\14#\61n\304\270"
"\21\343F\214\33\61n\304\60\22\243\210\60Q\224j\310\260\61\243\306\20\232\325\230QD\206\221\30\67b"
"\334\301\1S\42\216;\236c\211\226\220\42\61n\304\270\21c\307R\232,[\262\203\307\216\65h\16\25"
"\21&\253\320\0T\15}\33\206\17R\15\235\377\377\25\0U\21|\373\205a\366\377\237\215\30\64D\15"
"*\63\0V\26\177\371\205\221\366\377\313\21\343\206\220\42C\25\11r'\313\16\3X)~;\206\201\6"
"\217\221\30\66\204\20\31\42\244\206\14Cg\320$Q\222\6\315!\33\62\212\10\31BD\206\215 v\320"
"\302\1x\24\312\272\205A\206\216\220@c\212\224\31$S\14\262h\0\0\0\0\4\377\377\0";
#define play_icon_width 14
#define play_icon_height 14
@ -151,6 +153,10 @@ void drawMenuItems(String menu_items[], int menu_size) {
}
}
// Visual indicators for main section of screen.
inline void solidTick() { gravity.display.drawBox(56, 4, 4, 4); }
inline void hollowTick() { gravity.display.drawBox(56, 4, 4, 4); }
// Display an indicator when swing percentage matches a musical note.
void swingDivisionMark() {
auto& ch = GetSelectedChannel();
@ -158,17 +164,25 @@ void swingDivisionMark() {
case 58: // 1/32nd
case 66: // 1/16th
case 75: // 1/8th
gravity.display.drawBox(56, 4, 4, 4);
solidTick();
break;
case 54: // 1/32nd tripplet
case 62: // 1/16th tripplet
case 71: // 1/8th tripplet
gravity.display.drawBox(56, 4, 4, 4);
gravity.display.drawBox(57, 5, 2, 2);
hollowTick();
break;
}
}
// Human friendly display value for save slot.
String displaySaveSlot(int slot) {
if (slot >= 0 && slot < MAX_SAVE_SLOTS / 2) {
return String("A") + String(slot + 1);
} else if (slot >= MAX_SAVE_SLOTS / 2 && slot <= MAX_SAVE_SLOTS) {
return String("B") + String(slot - (MAX_SAVE_SLOTS / 2) + 1);
}
}
// Main display functions
void DisplayMainPage() {
@ -229,17 +243,37 @@ void DisplayMainPage() {
mainText = F("DIR");
subText = app.selected_sub_param == 0 ? F("DEFAULT") : F("REVERSED");
break;
case PARAM_MAIN_RESET_STATE:
mainText = F("RST");
subText = app.selected_sub_param == 0 ? F("RESET ALL") : F("BACK");
case PARAM_MAIN_SAVE_DATA:
case PARAM_MAIN_LOAD_DATA:
if (app.selected_sub_param == MAX_SAVE_SLOTS) {
mainText = F("x");
subText = F("BACK TO MAIN");
} else {
// Indicate currently active slot.
if (app.selected_sub_param == app.selected_save_slot) {
solidTick();
}
mainText = displaySaveSlot(app.selected_sub_param);
subText = (app.selected_param == PARAM_MAIN_SAVE_DATA)
? F("SAVE TO SLOT")
: F("LOAD FROM SLOT");
}
break;
case PARAM_MAIN_RESET_STATE:
if (app.selected_sub_param == 0) {
mainText = F("RST");
subText = F("RESET ALL");
} else {
mainText = F("x");
subText = F("BACK TO MAIN");
}
}
drawCenteredText(mainText.c_str(), MAIN_TEXT_Y, LARGE_FONT);
drawCenteredText(subText.c_str(), SUB_TEXT_Y, TEXT_FONT);
// Draw Main Page menu items
String menu_items[PARAM_MAIN_LAST] = {F("TEMPO"), F("SOURCE"), F("PULSE OUT"), F("ENCODER DIR"), F("RESET")};
String menu_items[PARAM_MAIN_LAST] = {F("TEMPO"), F("SOURCE"), F("PULSE OUT"), F("ENCODER DIR"), F("SAVE"), F("LOAD"), F("RESET")};
drawMenuItems(menu_items, PARAM_MAIN_LAST);
}

136
examples/Gravity/save_state.cpp
View File

@ -4,49 +4,50 @@
#include "app_state.h"
// Calculate the starting address for EepromData, leaving space for metadata.
static const int EEPROM_DATA_START_ADDR = sizeof(StateManager::Metadata);
StateManager::StateManager() : _isDirty(false), _lastChangeTime(0) {}
bool StateManager::initialize(AppState& app) {
if (_isDataValid()) {
static EepromData load_data;
EEPROM.get(sizeof(Metadata), load_data);
// Restore main app state
app.tempo = load_data.tempo;
app.encoder_reversed = load_data.encoder_reversed;
app.selected_param = load_data.selected_param;
app.selected_channel = load_data.selected_channel;
app.selected_source = static_cast<Clock::Source>(load_data.selected_source);
app.selected_pulse = static_cast<Clock::Pulse>(load_data.selected_pulse);
// Loop through and restore each channel's state.
for (int i = 0; i < Gravity::OUTPUT_COUNT; i++) {
auto& ch = app.channel[i];
const auto& saved_ch_state = load_data.channel_data[i];
ch.setClockMod(saved_ch_state.base_clock_mod_index);
ch.setProbability(saved_ch_state.base_probability);
ch.setDutyCycle(saved_ch_state.base_duty_cycle);
ch.setOffset(saved_ch_state.base_offset);
ch.setSwing(saved_ch_state.base_shuffle);
ch.setSteps(saved_ch_state.base_euc_steps);
ch.setHits(saved_ch_state.base_euc_hits);
ch.setCv1Dest(static_cast<CvDestination>(saved_ch_state.cv1_dest));
ch.setCv1Dest(static_cast<CvDestination>(saved_ch_state.cv2_dest));
}
return true;
// Load data from the transient slot.
return loadData(app, MAX_SAVE_SLOTS);
} else {
// EEPROM does not contain save data for this firmware & version.
// Initialize eeprom and save default patter to all save slots.
reset(app);
_saveMetadata();
// MAX_SAVE_SLOTS slot is reserved for transient state.
for (int i = 0; i <= MAX_SAVE_SLOTS; i++) {
app.selected_save_slot = i;
_saveState(app, i);
}
return false;
}
}
void StateManager::_save(const AppState& app) {
// Ensure interrupts do not cause corrupt data writes.
noInterrupts();
_saveState(app);
interrupts();
bool StateManager::loadData(AppState& app, byte slot_index) {
if (slot_index >= MAX_SAVE_SLOTS) return false;
_loadState(app, slot_index);
return true;
}
void StateManager::saveData(const AppState& app) {
if (app.selected_save_slot >= MAX_SAVE_SLOTS) return;
_saveState(app, app.selected_save_slot);
_isDirty = false;
}
void StateManager::update(const AppState& app) {
if (_isDirty && (millis() - _lastChangeTime > SAVE_DELAY_MS)) {
// MAX_SAVE_SLOTS slot is reserved for transient state.
_saveState(app, MAX_SAVE_SLOTS);
_isDirty = false;
}
}
void StateManager::reset(AppState& app) {
@ -56,27 +57,15 @@ void StateManager::reset(AppState& app) {
app.selected_channel = 0;
app.selected_source = Clock::SOURCE_INTERNAL;
app.selected_pulse = Clock::PULSE_PPQN_24;
app.selected_save_slot = 0;
for (int i = 0; i < Gravity::OUTPUT_COUNT; i++) {
app.channel[i].Init();
}
noInterrupts();
_saveMetadata(); // Write the new metadata
_saveState(app); // Write the new (default) app state
interrupts();
_isDirty = false;
}
void StateManager::update(const AppState& app) {
// Check if a save is pending and if enough time has passed.
if (_isDirty && (millis() - _lastChangeTime > SAVE_DELAY_MS)) {
_save(app);
_isDirty = false; // Clear the flag, we are now "clean".
}
}
void StateManager::markDirty() {
_isDirty = true;
_lastChangeTime = millis();
@ -90,39 +79,76 @@ bool StateManager::_isDataValid() {
return name_match && version_match;
}
void StateManager::_saveState(const AppState& app) {
void StateManager::_saveState(const AppState& app, byte slot_index) {
if (app.selected_save_slot >= MAX_SAVE_SLOTS) return;
noInterrupts();
static EepromData save_data;
// Populate main app state
save_data.tempo = app.tempo;
save_data.encoder_reversed = app.encoder_reversed;
save_data.selected_param = app.selected_param;
save_data.selected_channel = app.selected_channel;
save_data.selected_source = static_cast<byte>(app.selected_source);
save_data.selected_pulse = static_cast<byte>(app.selected_pulse);
save_data.selected_save_slot = app.selected_save_slot;
// Loop through and populate each channel's state
for (int i = 0; i < Gravity::OUTPUT_COUNT; i++) {
const auto& ch = app.channel[i];
auto& save_ch = save_data.channel_data[i];
// Use the getters with 'withCvMod = false' to get the base values
save_ch.base_clock_mod_index = ch.getClockModIndex(false);
save_ch.base_probability = ch.getProbability(false);
save_ch.base_duty_cycle = ch.getDutyCycle(false);
save_ch.base_offset = ch.getOffset(false);
save_ch.base_shuffle = ch.getSwing();
save_ch.base_euc_steps = ch.getSteps();
save_ch.base_euc_hits = ch.getHits();
save_ch.base_swing = ch.getSwing(false);
save_ch.base_euc_steps = ch.getSteps(false);
save_ch.base_euc_hits = ch.getHits(false);
save_ch.cv1_dest = static_cast<byte>(ch.getCv1Dest());
save_ch.cv2_dest = static_cast<byte>(ch.getCv2Dest());
}
EEPROM.put(sizeof(Metadata), save_data);
int address = EEPROM_DATA_START_ADDR + (slot_index * sizeof(EepromData));
EEPROM.put(address, save_data);
interrupts();
}
void StateManager::_loadState(AppState& app, byte slot_index) {
noInterrupts();
static EepromData load_data;
int address = EEPROM_DATA_START_ADDR + (slot_index * sizeof(EepromData));
EEPROM.get(address, load_data);
// Restore app state from loaded data.
app.tempo = load_data.tempo;
app.encoder_reversed = load_data.encoder_reversed;
app.selected_param = load_data.selected_param;
app.selected_channel = load_data.selected_channel;
app.selected_source = static_cast<Clock::Source>(load_data.selected_source);
app.selected_pulse = static_cast<Clock::Pulse>(load_data.selected_pulse);
app.selected_save_slot = slot_index;
for (int i = 0; i < Gravity::OUTPUT_COUNT; i++) {
auto& ch = app.channel[i];
const auto& saved_ch_state = load_data.channel_data[i];
ch.setClockMod(saved_ch_state.base_clock_mod_index);
ch.setProbability(saved_ch_state.base_probability);
ch.setDutyCycle(saved_ch_state.base_duty_cycle);
ch.setOffset(saved_ch_state.base_offset);
ch.setSwing(saved_ch_state.base_swing);
ch.setSteps(saved_ch_state.base_euc_steps);
ch.setHits(saved_ch_state.base_euc_hits);
ch.setCv1Dest(static_cast<CvDestination>(saved_ch_state.cv1_dest));
ch.setCv2Dest(static_cast<CvDestination>(saved_ch_state.cv2_dest));
}
interrupts();
}
void StateManager::_saveMetadata() {
noInterrupts();
Metadata current_meta;
strcpy(current_meta.sketch_name, SKETCH_NAME);
current_meta.version = SKETCH_VERSION;
EEPROM.put(0, current_meta);
interrupts();
}

25
examples/Gravity/save_state.h
View File

@ -9,13 +9,21 @@ struct AppState;
// Define the constants for the current firmware.
const char SKETCH_NAME[] = "Gravity";
const byte SKETCH_VERSION = 6;
const byte SKETCH_VERSION = 7;
// Number of available save slots.
const byte MAX_SAVE_SLOTS = 10;
// Define the minimum amount of time between EEPROM writes.
static const unsigned long SAVE_DELAY_MS = 2000;
/**
* @brief Manages saving and loading of the application state to and from EEPROM.
* The number of user slots is defined by MAX_SAVE_SLOTS, and one additional slot
* is reseved for transient state to persist state between power cycles before
* state is explicitly saved to a user slot. Metadata is stored in the beginning
* of the memory space which stores firmware version information to validate that
* the data can be loaded into the current version of AppState.
*/
class StateManager {
public:
@ -23,6 +31,10 @@ class StateManager {
// Populate the AppState instance with values from EEPROM if they exist.
bool initialize(AppState& app);
// Load data from specified slot.
bool loadData(AppState& app, byte slot_index);
// Save data to specified slot.
void saveData(const AppState& app);
// Reset AppState instance back to default values.
void reset(AppState& app);
// Call from main loop, check if state has changed and needs to be saved.
@ -30,18 +42,17 @@ class StateManager {
// Indicate that state has changed and we should save.
void markDirty();
private:
// This struct holds the data that identifies the firmware version.
struct Metadata {
char sketch_name[16];
byte version;
char sketch_name[16];
};
struct ChannelState {
byte base_clock_mod_index;
byte base_probability;
byte base_duty_cycle;
byte base_offset;
byte base_shuffle;
byte base_swing;
byte base_euc_steps;
byte base_euc_hits;
byte cv1_dest; // Cast the CvDestination enum as a byte for storage
@ -55,13 +66,15 @@ class StateManager {
byte selected_channel;
byte selected_source;
byte selected_pulse;
byte selected_save_slot;
ChannelState channel_data[Gravity::OUTPUT_COUNT];
};
void _save(const AppState& app);
private:
bool _isDataValid();
void _saveState(const AppState& app);
void _saveMetadata();
void _saveState(const AppState& app, byte slot_index);
void _loadState(AppState& app, byte slot_index);
bool _isDirty;
unsigned long _lastChangeTime;