129 lines
4.3 KiB
C++
129 lines
4.3 KiB
C++
#include "save_state.h"
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#include <EEPROM.h>
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#include "app_state.h"
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StateManager::StateManager() : _isDirty(false), _lastChangeTime(0) {}
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bool StateManager::initialize(AppState& app) {
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if (_isDataValid()) {
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static EepromData load_data;
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EEPROM.get(sizeof(Metadata), load_data);
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// Restore main app state
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app.tempo = load_data.tempo;
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app.encoder_reversed = load_data.encoder_reversed;
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app.selected_param = load_data.selected_param;
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app.selected_channel = load_data.selected_channel;
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app.selected_source = static_cast<Clock::Source>(load_data.selected_source);
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app.selected_pulse = static_cast<Clock::Pulse>(load_data.selected_pulse);
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// Loop through and restore each channel's state.
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for (int i = 0; i < Gravity::OUTPUT_COUNT; i++) {
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auto& ch = app.channel[i];
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const auto& saved_ch_state = load_data.channel_data[i];
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ch.setClockMod(saved_ch_state.base_clock_mod_index);
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ch.setProbability(saved_ch_state.base_probability);
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ch.setDutyCycle(saved_ch_state.base_duty_cycle);
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ch.setOffset(saved_ch_state.base_offset);
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ch.setSwing(saved_ch_state.base_shuffle);
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ch.setSteps(saved_ch_state.base_euc_steps);
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ch.setHits(saved_ch_state.base_euc_hits);
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ch.setCv1Dest(static_cast<CvDestination>(saved_ch_state.cv1_dest));
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ch.setCv1Dest(static_cast<CvDestination>(saved_ch_state.cv2_dest));
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}
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return true;
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} else {
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reset(app);
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return false;
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}
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}
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void StateManager::_save(const AppState& app) {
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// Ensure interrupts do not cause corrupt data writes.
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noInterrupts();
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_saveState(app);
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interrupts();
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}
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void StateManager::reset(AppState& app) {
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app.tempo = Clock::DEFAULT_TEMPO;
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app.encoder_reversed = false;
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app.selected_param = 0;
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app.selected_channel = 0;
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app.selected_source = Clock::SOURCE_INTERNAL;
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app.selected_pulse = Clock::PULSE_PPQN_24;
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for (int i = 0; i < Gravity::OUTPUT_COUNT; i++) {
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app.channel[i].Init();
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}
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noInterrupts();
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_saveMetadata(); // Write the new metadata
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_saveState(app); // Write the new (default) app state
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interrupts();
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_isDirty = false;
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}
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void StateManager::update(const AppState& app) {
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// Check if a save is pending and if enough time has passed.
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if (_isDirty && (millis() - _lastChangeTime > SAVE_DELAY_MS)) {
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_save(app);
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_isDirty = false; // Clear the flag, we are now "clean".
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}
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}
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void StateManager::markDirty() {
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_isDirty = true;
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_lastChangeTime = millis();
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}
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bool StateManager::_isDataValid() {
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Metadata load_meta;
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EEPROM.get(0, load_meta);
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bool name_match = (strcmp(load_meta.sketch_name, SKETCH_NAME) == 0);
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bool version_match = (load_meta.version == SKETCH_VERSION);
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return name_match && version_match;
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}
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void StateManager::_saveState(const AppState& app) {
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static EepromData save_data;
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// Populate main app state
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save_data.tempo = app.tempo;
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save_data.encoder_reversed = app.encoder_reversed;
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save_data.selected_param = app.selected_param;
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save_data.selected_channel = app.selected_channel;
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save_data.selected_source = static_cast<byte>(app.selected_source);
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save_data.selected_pulse = static_cast<byte>(app.selected_pulse);
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// Loop through and populate each channel's state
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for (int i = 0; i < Gravity::OUTPUT_COUNT; i++) {
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const auto& ch = app.channel[i];
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auto& save_ch = save_data.channel_data[i];
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// Use the getters with 'withCvMod = false' to get the base values
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save_ch.base_clock_mod_index = ch.getClockModIndex(false);
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save_ch.base_probability = ch.getProbability(false);
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save_ch.base_duty_cycle = ch.getDutyCycle(false);
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save_ch.base_offset = ch.getOffset(false);
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save_ch.base_shuffle = ch.getSwing();
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save_ch.base_euc_steps = ch.getSteps();
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save_ch.base_euc_hits = ch.getHits();
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save_ch.cv1_dest = static_cast<byte>(ch.getCv1Dest());
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save_ch.cv2_dest = static_cast<byte>(ch.getCv2Dest());
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}
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EEPROM.put(sizeof(Metadata), save_data);
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}
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void StateManager::_saveMetadata() {
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Metadata current_meta;
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strcpy(current_meta.sketch_name, SKETCH_NAME);
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current_meta.version = SKETCH_VERSION;
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EEPROM.put(0, current_meta);
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}
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