diff --git a/Watchy_GSR.cpp b/Watchy_GSR.cpp deleted file mode 100644 index 8846a47..0000000 --- a/Watchy_GSR.cpp +++ /dev/null @@ -1,2553 +0,0 @@ -#include "Watchy_GSR.h" - -// Debug message code. -bool SerialSetup; - -//Timezone configuration -static const char TZURL[] PROGMEM = "http://ip-api.com/json"; -static const char UserAgent[] PROGMEM = "Watchy"; - -// AlarmVBs[] = {"0111111110", "0011001100", "0110110110", "0101001010"}; -int AlarmVBs[] = {0x01FE, 0x00CC, 0x01B6, 0x014A}; -const uint16_t Bits[10] = {1,2,4,8,16,32,64,128,256,512}; -const float Reduce[5] = {1.0,0.8,0.6,0.4,0.2}; - -RTC_DATA_ATTR struct GSRWireless { - bool Requested; // Request WiFi. - bool Working; // Working on getting WiFi. - bool Results; // Results of WiFi, found an AP? - uint8_t Index; // 10 = built-in, roll backwards to 0. - struct APInfo { - char APID[33]; - char PASS[64]; - } AP[10]; // Using APID to avoid internal confusion with SSID. - unsigned long Last; // Used with millis() to maintain sanity. -} GSRWiFi; - -RTC_DATA_ATTR struct Stepping { - uint8_t Hour; - uint8_t Minutes; - bool Reset; - uint32_t Yesterday; -} Steps; - -RTC_DATA_ATTR struct Optional { - bool TwentyFour; // If the face shows 24 hour or Am/Pm. - bool LightMode; // Light/Dark mode. - bool Feedback; // Haptic Feedback on buttons. - bool Border; // True to set the border to black/white. - bool Lefty; // Swaps the buttons to the other side. - bool Swapped; // Menu and Back buttons swap ends (vertically). - bool Orientated; // Set to false to not bother which way the buttons are. - uint8_t Turbo; // 0-10 seconds. - uint8_t MasterRepeats; // Done for ease, will be in the Alarms menu. -} Options; - -RTC_DATA_ATTR int GuiMode; -RTC_DATA_ATTR bool ScreenOn; // Screen needs to be on. -RTC_DATA_ATTR bool VibeMode; // Vibe Motor is On=True/Off=False, used for the Haptic and Alarms. -RTC_DATA_ATTR String WatchyStatus; // Used for the indicator in the bottom left, so when it changes, it asks for a screen refresh, if not, it doesn't. - -RTC_DATA_ATTR struct TimeData { - time_t UTC_RAW; // Copy of the UTC on init. - tmElements_t UTC; // Copy of UTC only split up for usage. - tmElements_t Local; // Copy of the Local time on init. - String TimeZone; // The location timezone, not the actual POSIX. - char POSIX[64]; // The POSIX result. - String LastTime; // Used for determining if the time display changed. - String LastDay; - String LastDate; - String LastYear; -} WatchTime; - -RTC_DATA_ATTR struct Countdown { - bool Active; - uint8_t Hours; - uint8_t Mins; - uint8_t MaxHours; - uint8_t MaxMins; - uint8_t Tone; // 10 to start. - uint8_t ToneLeft; // 30 to start. - uint8_t MaxTones; // 0-4 (20-80%) tone duration reduction. - time_t LastUTC; -} TimerDown; - -RTC_DATA_ATTR struct CountUp { - bool Active; - time_t SetAt; - time_t StopAt; -} TimerUp; - -RTC_DATA_ATTR struct BatteryUse { - float Last; // Used to track battery changes, only updates past 0.01 in change. - int8_t Direction; // -1 for draining, 1 for charging. - int8_t UpCount; // Counts how many times the battery is in a direction to determine true charging. - int8_t DownCount; - int8_t LastState; // 0=not visible, 1= showing chargeme, 2=showing charging. -} Battery; - -RTC_DATA_ATTR struct MenuUse { - int8_t Style; // MENU_INNORMAL or MENU_INOPTIONS - int8_t Item; // What Menu Item is being viewed. - int8_t SubItem; // Used for menus that have sub items, like alarms and Sync Time. - int8_t SubSubItem; // Used mostly in the alarm to offset choice. - String LastHeader; // Used for checking menu state needing update. - String LastItem; -} Menu; - -RTC_DATA_ATTR struct NTPUse { - uint8_t State; // State = 0=Off, 1=Start WiFi, 2=Wait for WiFi, TZ, send NTP request, etc, Finish. See function ProcessNTP(); - uint8_t Wait; // Counts up to 3 minutes, then fails. - uint8_t Pause; // How many 50ms to pause for. - time_t Last; // Last time it worked. - bool TimeZone; // Update Timezone during ProcessNTP. - bool UpdateUTC; // Update UTC during ProcessNTP. -} NTPData; - -struct dispUpdate { - bool Time; - bool Day; - bool Date; - bool Header; - bool Item; - bool Status; - bool Year; - bool Charge; - bool Full; -} Updates; - -struct SpeedUp { - bool On; - time_t Last; -} Turbo; - -DS3232RTC WatchyGSR::RTC(false); -GxEPD2_BW WatchyGSR::display(GxEPD2_154_D67(CS, DC, RESET, BUSY)); - -volatile uint8_t Button; - -//RTC_DATA_ATTR alignas(8) struct AlarmID { -RTC_DATA_ATTR uint8_t Alarms_Hour[4]; -RTC_DATA_ATTR uint8_t Alarms_Minutes[4]; -RTC_DATA_ATTR uint16_t Alarms_Active[4]; // Bits 0-6 (days of week), 7 Repeat, 8 Active, 9 Tripped (meaning if it isn't repeating, don't fire). -RTC_DATA_ATTR uint8_t Alarms_Times[4]; // Set to 10 to start, ends when zero. -RTC_DATA_ATTR uint8_t Alarms_Playing[4]; // Means the alarm tripped and it is to be played (goes to 0 when it finishes). -RTC_DATA_ATTR uint8_t Alarms_Repeats[4]; // 0-4 (20-80%) reduction in repetitions. -//} Alarms[4]; - -WiFiClient WiFiC; // Tz -WiFiManager wifiManager; -HTTPClient HTTP; // Tz -Olsen2POSIX OP; // Tz code. -WebServer server(80); -unsigned long OTATimer; -bool WatchyAPOn; // States Watchy's AP is on for connection. Puts in Active Mode until back happens. -bool ActiveMode; // Moved so it can be checked. -bool OTAUpdate; // Internet based OTA Update. -bool OTAEnd; // Means somewhere, it wants this to end, so end it. -int OTATry; // Tries to connect to WiFi. -bool DoHaptic; // Want it to happen after screen update. -bool UpdateDisp; // Display needs to be updated. -unsigned long LastButton, OTAFail; - -// nvs_handle hNVS; - -WatchyGSR::WatchyGSR(){} //constructor - -// Init Defaults after a reboot, setup all the variables here for defaults to avoid randomness. -void WatchyGSR::setupDefaults(){ - Options.TwentyFour = false; - Options.LightMode = true; - Options.Feedback = true; - Options.Border = false; - Options.Lefty = false; - Options.Swapped = false; - Options.Turbo = 3; - Options.MasterRepeats = 0; // 100%. - Steps.Hour = 6; - Steps.Minutes = 0; -} - -void WatchyGSR::init(){ - uint64_t wakeupBit; - time_t NTPWaiting, RightNOW, LastCheck; - int AlarmIndex, Pushed; // Alarm being played. - bool AlarmsOn, WaitForNext, Pulse, DoOnce; - unsigned long Since, AlarmReset, APLoop; - - esp_sleep_wakeup_cause_t wakeup_reason; - Wire.begin(SDA, SCL); //init i2c - display.init(0, false); //_initial_refresh to false to prevent full update on init (moved here so it isn't done repeatedly during loops). - - pinMode(MENU_BTN_PIN, INPUT); // Prep these for the loop below. - pinMode(BACK_BTN_PIN, INPUT); - pinMode(UP_BTN_PIN, INPUT); - pinMode(DOWN_BTN_PIN, INPUT); - - wakeup_reason = esp_sleep_get_wakeup_cause(); //get wake up reason - wakeupBit = esp_sleep_get_ext1_wakeup_status(); - DoOnce = true; - - switch (wakeup_reason) - { - case ESP_SLEEP_WAKEUP_EXT0: //RTC Alarm - RTC.alarm(ALARM_2); //resets the alarm flag in the RTC - UpdateUTC(); - UpdateClock(); - detectBattery(); - UpdateDisp=true; - break; - case ESP_SLEEP_WAKEUP_EXT1: //button Press - //if (wakeup_reason & ACC_INT_MASK) handleAccelerometer(); else - Pushed = getButtonMaskToID(wakeupBit); - if (Pushed > 0) { Button = Pushed; LastButton = millis(); } - break; - default: //reset - _rtcConfig(); - _bmaConfig(); - UpdateUTC(); - UpdateClock(); - setupDefaults(); - initZeros(); - AlarmIndex=0; - AlarmsOn=false; - WaitForNext=false; - Updates.Full=true; - UpdateDisp=true; - //Init interrupts. - attachInterrupt(digitalPinToInterrupt(MENU_BTN_PIN), std::bind(&WatchyGSR::handleInterrupt,this), HIGH); - attachInterrupt(digitalPinToInterrupt(BACK_BTN_PIN), std::bind(&WatchyGSR::handleInterrupt,this), HIGH); - attachInterrupt(digitalPinToInterrupt(UP_BTN_PIN), std::bind(&WatchyGSR::handleInterrupt,this), HIGH); - attachInterrupt(digitalPinToInterrupt(DOWN_BTN_PIN), std::bind(&WatchyGSR::handleInterrupt,this), HIGH); - break; - } - // Sometimes BMA crashes - simply try to reinitialize bma... - if (sensor.getErrorCode() != 0) { - sensor.shutDown(); - sensor.wakeUp(); - sensor.softReset(); - _bmaConfig(); - } - - if (Button > 0) { handleButtonPress(Button); Button = 0; } - - CalculateTones(); monitorSteps(); - AlarmsOn =(Alarms_Times[0] > 0 || Alarms_Times[1] > 0 || Alarms_Times[2] > 0 || Alarms_Times[3] > 0 || TimerDown.ToneLeft > 0); - ActiveMode = (InTurbo() || NTPData.State > 0 || AlarmsOn || WatchyAPOn || OTAUpdate); - - while(DoOnce || Button > 0){ - DoOnce = false; // Do this whole thing once, catch late button presses at the END of the loop just before Deep Sleep. - if (UpdateDisp) showWatchFace(); //partial updates on tick - NTPWaiting = WatchTime.UTC_RAW; - RightNOW = WatchTime.UTC_RAW; - Since=millis(); - LastCheck = RightNOW; - AlarmReset = Since; - OTATimer = Since; - OTAFail = Since; - if (ActiveMode){ - while (ActiveMode == true) { // Here, we hijack the init and LOOP until the NTP is done, watching for the proper time when we *SHOULD* update the screen to keep time with everything. - - processWiFiRequest(); // Process any WiFi requests. - - if (!(OTAUpdate && Menu.SubItem == 3)){ - if (NTPData.State > 0 && !WatchyAPOn && !OTAUpdate){ - if (NTPData.Pause == 0) ProcessNTP(); else NTPData.Pause--; - if (RightNOW - NTPWaiting >= 60){ - NTPWaiting = WatchTime.UTC_RAW; - NTPData.Wait++; - UpdateDisp=true; - } - } - - // Here, make sure the clock updates on-screen. - if (WatchTime.UTC_RAW - LastCheck >= 60){ - LastCheck = WatchTime.UTC_RAW; - detectBattery(); - UpdateDisp = true; - } - - // Here, do the alarm buzzings by way of which one is running. - - if (AlarmsOn && !OTAUpdate){ - if (WaitForNext){ - // Wait for the next second to change between any alarms still to play. - if (millis() - AlarmReset > 999){ // Time changed. - AlarmReset = millis(); - WaitForNext = false; - AlarmIndex = roller(AlarmIndex + 1, 0, 4); - if (getToneTimes(AlarmIndex) == 0){ - AlarmIndex = roller(AlarmIndex + 1, 0, 4); - if (getToneTimes(AlarmIndex) == 0){ - AlarmIndex = roller(AlarmIndex + 1, 0, 4); - if (getToneTimes(AlarmIndex) == 0){ - AlarmIndex = roller(AlarmIndex + 1, 0, 4); - if (getToneTimes(AlarmIndex) == 0){ - AlarmIndex = roller(AlarmIndex + 1, 0, 4); - } - } - } - } - } - }else if(AlarmIndex == 4){ - if (TimerDown.ToneLeft > 0){ - if (TimerDown.Tone == 0){ - WaitForNext=true; - if (TimerDown.ToneLeft > 0){ - TimerDown.ToneLeft--; - TimerDown.Tone = 24; - } - }else{ - TimerDown.Tone--; - Pulse = (((TimerDown.Tone / 2) & 1) != 0); - if (!Pulse && TimerDown.Tone > 0) TimerDown.Tone--; - VibeTo(Pulse); // Turns Vibe on or off depending on bit state. - } - }else WaitForNext=true; - }else if (Alarms_Times[AlarmIndex] > 0){ - if (Alarms_Playing[AlarmIndex] > 0){ - Alarms_Playing[AlarmIndex]--; - if (Menu.SubItem > 0 && Menu.Item - MENU_ALARM1 == AlarmIndex){ - VibeTo(false); - DoHaptic = false; - Alarms_Playing[AlarmIndex]=0; - Alarms_Times[AlarmIndex]=0; - }else{ - Pulse = ((AlarmVBs[AlarmIndex] & Bits[Alarms_Playing[AlarmIndex] / 3]) != 0); - VibeTo(Pulse); // Turns Vibe on or off depending on bit state. - DoHaptic = false; - } - if (Alarms_Playing[AlarmIndex] == 0 && Alarms_Times[AlarmIndex] > 0){ - Alarms_Times[AlarmIndex]--; // Decrease count, eventually this will all stop on it's own. - WaitForNext = true; - if (Alarms_Times[AlarmIndex] > 0) Alarms_Playing[AlarmIndex] = 30; - } - }else WaitForNext = true; - }else WaitForNext = true; - } - - if (WatchyAPOn && !OTAUpdate){ - switch (Menu.SubItem){ - case 0: // Turn off AP. - OTAEnd = true; - break; - case 1: // Turn on AP. - if (WiFi.getMode() != WIFI_AP || (millis() - OTATimer > 4000 && OTATry < 3)){ - OTATimer=millis(); - OTATry++; - WiFi.setHostname(WiFi_AP_SSID); - wifiManager.setConfigPortalBlocking(false); - wifiManager.setWiFiAPHidden(WiFi_AP_HIDE); - if (!WiFi.softAP(WiFi_AP_SSID,WiFi_AP_PSWD,1,WiFi_AP_HIDE)) OTAEnd = true; - }else if (WiFi.getMode() == WIFI_AP){ - wifiManager.startWebPortal(); - Menu.SubItem++; - setStatus("WiFi-AP"); - UpdateDisp=true; - APLoop=millis(); - }else Menu.SubItem = 0; // Fail, something is amiss. - break; - default: // 2 to 5 is here. - if (Menu.SubItem > 1){ - if(WiFi.getMode() == WIFI_STA){ - Menu.SubItem = 0; - break; - } - if (wifiManager.process()){ // Setting worked. - Menu.SubItem = 0; - break; - } - if (millis() - APLoop > 8000){ - Menu.SubItem = roller(Menu.SubItem + 1, 2,4); - UpdateDisp = true; - APLoop=millis(); - } - } - } - } - } - if (OTAUpdate){ - switch (Menu.SubItem){ - case 1: // Wait for WiFi to connect or fail. - if (WiFi.status() != WL_CONNECTED && currentWiFi() != WL_CONNECT_FAILED) OTATimer = millis(); - else if (WiFi.status() == WL_CONNECTED){ - Menu.SubItem++; - UpdateDisp = true; - }else OTAEnd=true; - break; - case 2: // Setup Arduino OTA and wait for it to either finish or fail by way of back button held for too long OR 2 minute with no upload. - if (Menu.Item == MENU_OTAU){ - ArduinoOTA.setHostname(WiFi_AP_SSID); - ArduinoOTA - .onStart([]() { - String Type; - if (ArduinoOTA.getCommand() == U_FLASH) - Type = "sketch"; - else // U_SPIFFS - Type = "filesystem"; - // NOTE: if updating SPIFFS this would be the place to unmount SPIFFS using SPIFFS.end() - //Serial.println("Start updating " + Type); - }) - .onEnd([]() { - OTAEnd = true; - //Serial.println("\nEnd"); - }) - .onProgress([](unsigned int progress, unsigned int total) { - OTATimer=millis(); - //Serial.printf("Progress: %u%%\n", (progress / (total / 100))); - }) - .onError([](ota_error_t error) { - /*Serial.printf("Error[%u]: ", error); - if (error == OTA_AUTH_ERROR) Serial.println("Auth Failed"); - else if (error == OTA_BEGIN_ERROR) Serial.println("Begin Failed"); - else if (error == OTA_CONNECT_ERROR) Serial.println("Connect Failed"); - else if (error == OTA_RECEIVE_ERROR) Serial.println("Receive Failed"); - else if (error == OTA_END_ERROR) Serial.println("End Failed"); - */ - }); - ArduinoOTA.begin(); - }else if (Menu.Item == MENU_OTAM){ - /*return index page which is stored in basicIndex */ - server.on("/", HTTP_GET, [=]() { - server.sendHeader("Connection", "close"); - server.send(200, "text/html", basicIndex); - OTATimer=millis(); - }); - server.on("/settings", HTTP_GET, [=]() { - String S = settingsA + GetSettings() + settingsB; - server.sendHeader("Connection", "close"); - server.send(200, "text/html", S); - OTATimer=millis(); - }); - server.on("/wifi", HTTP_GET, [=]() { - server.sendHeader("Connection", "close"); - server.send(200, "text/html", buildWiFiAPPage()); - OTATimer=millis(); - }); - server.on("/update", HTTP_GET, [=]() { - server.sendHeader("Connection", "close"); - server.send(200, "text/html", updateIndex); - OTATimer=millis(); - }); - server.on("/settings", HTTP_POST, [=](){ - if (server.argName(0) == "settings") StoreSettings(server.arg(0)); - server.sendHeader("Connection", "close"); - server.send(200, "text/html", settingsDone); - OTATimer=millis(); - }); - server.on("/wifi", HTTP_POST, [=](){ - uint8_t I = 0; - while (I < server.args()){ - parseWiFiPageArg(server.argName(I),server.arg(I)); I++; - } - server.sendHeader("Connection", "close"); - server.send(200, "text/html", wifiDone); - OTAFail = millis() - 598000; - }); - server.on("/update", HTTP_POST, [](){ - server.sendHeader("Connection", "close"); - server.send(200, "text/plain", (Update.hasError()) ? "FAIL" : "OK"); - ESP.restart(); - }, []() { - HTTPUpload& upload = server.upload(); - if (upload.status == UPLOAD_FILE_START) { - OTATimer=millis(); - //Serial.printf("Update: %s\n", upload.filename.c_str()); - if (!Update.begin(UPDATE_SIZE_UNKNOWN)) { //start with max available size - Update.printError(Serial); - } - } else if (upload.status == UPLOAD_FILE_WRITE) { - /* flashing firmware to ESP*/ - delay(2); - if (Update.write(upload.buf, upload.currentSize) != upload.currentSize) Update.printError(Serial); - delay(2); - } else if (upload.status == UPLOAD_FILE_END) { - if (Update.end(true)) { //true to set the size to the current progress - OTAEnd=true; - //Serial.printf("Update Success: %u\nRebooting...\n", upload.totalSize); - } //else Update.printError(Serial); - } - }); - server.begin(); - } - Menu.SubItem++; - showWatchFace(); - break; - case 3: // Monitor back button and turn WiFi off if it happens, or if duration is longer than 2 minutes. - if (Menu.Item == MENU_OTAU) ArduinoOTA.handle(); - else if (Menu.Item == MENU_OTAM) server.handleClient(); - if (getButtonPins() != 2) OTATimer = millis(); // Not pressing "BACK". - if (millis() - OTATimer > 10000 || millis() - OTAFail > 600000) OTAEnd = true; // Fail if holding back for 10 seconds OR 120 seconds has passed. - } - } - - // OTAEnd code. - if (OTAEnd){ - //if (Menu.Item == MENU_OTAU) ArduinoOTA.stop(); // Why is there no stop/close??? - if (Menu.Item == MENU_OTAM) server.stop(); - if (WatchyAPOn) wifiManager.stopConfigPortal(); - VibeTo(false); - OTAEnd=false; - OTAUpdate=false; - WatchyAPOn = false; - endWiFi(); - Menu.SubItem=0; - UpdateUTC(); - UpdateClock(); - Battery.UpCount=0; // Stop it from thinking the battery went wild. - UpdateDisp=true; - } - - // Don't do anything time sensitive while in OTA Update. - if (!(OTAUpdate && Menu.SubItem == 3)){ - CalculateTones(); monitorSteps(); - AlarmsOn =(Alarms_Times[0] > 0 || Alarms_Times[1] > 0 || Alarms_Times[2] > 0 || Alarms_Times[3] > 0 || TimerDown.ToneLeft > 0); - ActiveMode = (InTurbo() || NTPData.State > 0 || AlarmsOn || WatchyAPOn || OTAUpdate); - - // Here, check for button presses and respond, done here to avoid turbo button presses. - - handleInterrupt(); - if (Button > 0) { handleButtonPress(Button); Button = 0; } - if (UpdateDisp) showWatchFace(); //partial updates on tick - - Since=50-(millis()-Since); - if (Since <= 50) delay(Since); - UpdateUTC(); - RightNOW = WatchTime.UTC_RAW; - Since=millis(); - } - } - } - - if (Button > 0) { handleButtonPress(Button); Button = 0; } - if (UpdateDisp) showWatchFace(); //partial updates on tick - } - deepSleep(); -} - -void WatchyGSR::showWatchFace(){ - display.epd2.setDarkBorder(Options.Border); - drawWatchFace(); - if (Options.Feedback && DoHaptic){ - VibeTo(true); - delay(40); - VibeTo(false); - } - DoHaptic=false; - UpdateDisp=false; - ScreenRefresh(); -} - -void WatchyGSR::drawWatchFace(){ - uint8_t Direction; - - Direction = sensor.getDirection(); // Directional screen on. == DIRECTION_DISP_UP - - display.fillScreen(Options.LightMode ? GxEPD_WHITE : GxEPD_BLACK); - display.setTextColor(Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - - ScreenOn = (Direction == DIRECTION_DISP_UP || Direction == DIRECTION_TOP_EDGE || Battery.Direction == 1 || true); // True set due to bug. - - if (ScreenOn){ - if (!(OTAUpdate || WatchyAPOn)){ - drawTime(); - drawDay(); - drawYear(); - } - if (GuiMode == WATCHON) drawDate(); - else if (GuiMode == MENUON) drawMenu(); - } - drawChargeMe(); - // Show WiFi/AP/TZ/NTP if in progress. - drawStatus(); - UpdateDisp = false; -} - -void WatchyGSR::drawTime(){ - int16_t x1, y1; - uint16_t w, h, tw; - String O; - bool PM; - PM = false; - O = MakeTime(WatchTime.Local.Hour, WatchTime.Local.Minute, PM); - display.setFont(&aAntiCorona36pt7b); - display.setTextColor(Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - - display.getTextBounds(O, 0, TimeY, &x1, &y1, &w, &h); - tw = (200 - w) /2; - display.setCursor(tw, TimeY); - display.println(O); - - if (PM){ - tw=clamp(tw + w + 6, 0, 184); - display.drawBitmap(tw, TimeY - 45, PMIndicator, 6, 6, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); -// display.fillRect(tw, TimeY - 45 ,6 ,6, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - } - Updates.Time = (O != WatchTime.LastTime); - WatchTime.LastTime = O; -} - -void WatchyGSR::drawDay(){ - int16_t x1, y1; - uint16_t w, h; - String O; - - O = dayStr(WatchTime.Local.Wday + 1); - display.setFont(&aAntiCorona16pt7b); - display.setTextColor(Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - display.getTextBounds(O, 0, DayY, &x1, &y1, &w, &h); - w = (200 - w) /2; - display.setCursor(w, DayY); - display.println(O); - Updates.Day = (O != WatchTime.LastDay); - WatchTime.LastDay = O; -} - -void WatchyGSR::drawDate(){ - int16_t x1, y1; - uint16_t w, h; - String O; - - display.setFont(&aAntiCorona15pt7b); //Shahd_Serif17pt7b); - display.setTextColor(Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - O = String(monthStr(WatchTime.Local.Month)) + " " + String(WatchTime.Local.Day); - //O="September 30"; - display.getTextBounds(O, 0, DateY, &x1, &y1, &w, &h); - w = (200 - w) /2; - display.setCursor(w, DateY); - display.print(O); - Updates.Date = (O != WatchTime.LastDate); - WatchTime.LastDate = O; -} - -void WatchyGSR::drawYear(){ - int16_t x1, y1; - uint16_t w, h, tw; - String O; - - display.setFont(&aAntiCorona16pt7b); - display.setTextColor(Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - O = String(WatchTime.Local.Year + 1900); - display.getTextBounds(O, 0, YearY, &x1, &y1, &w, &h); - w = (200 - w) /2; - display.setCursor(w, YearY); - display.print(O); - Updates.Year = (O != WatchTime.LastYear); - WatchTime.LastYear = O; -} - -void WatchyGSR::drawMenu(){ - int16_t x1, y1; - uint16_t w, h; - String O, S; - - display.setFont(&aAntiCorona12pt7b); - display.fillRect(0, MenuTop, 200, MenuHeight, Options.LightMode ? GxEPD_WHITE : GxEPD_BLACK); - display.drawBitmap(0, MenuTop, (Menu.Style == MENU_INOPTIONS) ? OptionsMenuBackground : MenuBackground, 200, MenuHeight, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - display.setTextColor(Options.LightMode && Menu.Style != MENU_INNORMAL ? GxEPD_WHITE : GxEPD_BLACK); - switch (Menu.Item){ - case MENU_STEPS: - if (Menu.SubItem > 0 && Menu.SubItem < 4) O = "Tomorrow"; - else if (Menu.SubItem == 4) O = "Reset Today"; - else O = "Steps"; - break; - case MENU_ALARMS: - O = "Alarms"; - break; - case MENU_TIMERS: - O = "Timers"; - break; - case MENU_OPTIONS: - O = "Options"; - break; - case MENU_ALARM1: - if (Menu.SubItem > 0 && Menu.SubItem < 4) O = "Alarm 1 Time"; - else if (Menu.SubItem == 4) O = "A1 Tone Repeats"; - else if (Menu.SubItem > 4) O = "Alarm 1 Options"; - else O = "Alarm 1"; - break; - case MENU_ALARM2: - if (Menu.SubItem > 0 && Menu.SubItem < 4) O = "Alarm 2 Time"; - else if (Menu.SubItem == 4) O = "A2 Tone Repeats"; - else if (Menu.SubItem > 4) O = "Alarm 2 Options"; - else O = "Alarm 2"; - break; - case MENU_ALARM3: - if (Menu.SubItem > 0 && Menu.SubItem < 4) O = "Alarm 3 Time"; - else if (Menu.SubItem == 4) O = "A3 Tone Repeats"; - else if (Menu.SubItem > 4) O = "Alarm 3 Options"; - else O = "Alarm 3"; - break; - case MENU_ALARM4: - if (Menu.SubItem > 0 && Menu.SubItem < 4) O = "Alarm 4 Time"; - else if (Menu.SubItem == 4) O = "A4 Tone Repeats"; - else if (Menu.SubItem > 4) O = "Alarm 4 Options"; - else O = "Alarm 4"; - break; - case MENU_TONES: - O = "Tone Repeats"; - break; - case MENU_TIMEDN: - O = "Countdown Timer"; - break; - case MENU_TIMEUP: - O = "Elapsed Timer"; - break; - case MENU_DISP: - O = "Display Style"; - break; - case MENU_BRDR: - O = "Border Mode"; - break; - case MENU_SIDE: - O = "Dexterity"; - break; - case MENU_SWAP: - O = "Menu & Back"; - break; - case MENU_ORNT: - O = "Orientation"; - break; - case MENU_MODE: - O = "Time Mode"; - break; - case MENU_FEED: - O = "Feedback"; - break; - case MENU_TRBO: - O = "Turbo Time"; - break; - case MENU_SCRN: - O = "Reset Screen"; - break; - case MENU_SYNC: - O = "Sync Watchy"; - break; - case MENU_WIFI: - O = "Watchy Connect"; - break; - case MENU_OTAU: - if (Menu.SubItem == 2 || Menu.SubItem == 3) O = "Upload Firmware"; else O = "OTA Update"; - break; - case MENU_OTAM: - if (Menu.SubItem == 2 || Menu.SubItem == 3) O = "Visit Website"; else O = "OTA Website"; - break; - case MENU_RSET: - O = "Watchy Reboot"; - } - display.getTextBounds(O, 0, HeaderY, &x1, &y1, &w, &h); - w = (196 - w) /2; - display.setCursor(w + 2, HeaderY); - display.print(O); - Updates.Header = (O != Menu.LastHeader); - Menu.LastHeader = O; - display.setTextColor(GxEPD_BLACK); // Only show menu in Light mode - if (Menu.Item == MENU_STEPS){ //Steps - switch (Menu.SubItem){ - case 0: // Steps. - S = ""; if (Steps.Yesterday > 0) S = " (" + MakeSteps(Steps.Yesterday) + ")"; - O = MakeSteps(sensor.getCounter()) + S; - break; - case 1: // Hour. - O="[" + MakeHour(Steps.Hour) + "]:" + MakeMinutes(Steps.Minutes) + (Steps.Hour > 11 ? " PM" : " AM") ; - break; - case 2: // x0 minutes. - S=MakeMinutes(Steps.Minutes); - O=MakeHour(Steps.Hour) + ":[" + S.charAt(0) + "]" + S.charAt(1) + (Steps.Hour > 11 ? " PM" : " AM") ; - break; - case 3: // 0x minutes. - S=MakeMinutes(Steps.Minutes); - O=MakeHour(Steps.Hour) + ":" + S.charAt(0) + "[" + S.charAt(1) + "]" + (Steps.Hour > 11 ? " PM" : " AM") ; - break; - case 4: // Sunday. - O = "MENU to Reset"; - } - }else if (Menu.Item == MENU_ALARMS){ - O = "MENU to Select"; - }else if (Menu.Item >= MENU_ALARM1 && Menu.Item <= MENU_ALARM4){ // Alarms - O = ""; - S=MakeMinutes(Alarms_Minutes[Menu.Item - MENU_ALARM1]); - switch (Menu.SubItem){ - case 0: // Menu to Edit. - O="Menu to Edit"; - break; - case 1: // Hour. - O="[" + MakeHour(Alarms_Hour[Menu.Item - MENU_ALARM1]) + "]:" + S + ((Alarms_Hour[Menu.Item - MENU_ALARM1] > 11) ? " PM " : " AM ") + getReduce(Alarms_Repeats[Menu.Item - MENU_ALARM1]); - break; - case 2: // x0 minutes. - O=MakeHour(Alarms_Hour[Menu.Item - MENU_ALARM1]) + ":[" + S.charAt(0) + "]" + S.charAt(1) + ((Alarms_Hour[Menu.Item - MENU_ALARM1] > 11) ? " PM " : " AM ") + getReduce(Alarms_Repeats[Menu.Item - MENU_ALARM1]); - break; - case 3: // 0x minutes. - O=MakeHour(Alarms_Hour[Menu.Item - MENU_ALARM1]) + ":" + S.charAt(0) + "[" + S.charAt(1) + "]" + ((Alarms_Hour[Menu.Item - MENU_ALARM1] > 11) ? " PM " : " AM ") + getReduce(Alarms_Repeats[Menu.Item - MENU_ALARM1]); - break; - case 4: // Repeats - O=MakeHour(Alarms_Hour[Menu.Item - MENU_ALARM1]) + ":" + S.charAt(0) + S.charAt(1) + ((Alarms_Hour[Menu.Item - MENU_ALARM1] > 11) ? " PM " : " AM ") + "[" + getReduce(Alarms_Repeats[Menu.Item - MENU_ALARM1]) + "]"; - break; - case 5: // Sunday. - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & Bits[0]) == Bits[0]) ? GxEPD_WHITE : GxEPD_BLACK); - O=dayStr(1); - break; - case 6: // Monday. - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & Bits[1]) == Bits[1]) ? GxEPD_WHITE : GxEPD_BLACK); - O=dayStr(2); - break; - case 7: // Tuesday. - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & Bits[2]) == Bits[2]) ? GxEPD_WHITE : GxEPD_BLACK); - O=dayStr(3); - break; - case 8: // Wedmesday. - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & Bits[3]) == Bits[3]) ? GxEPD_WHITE : GxEPD_BLACK); - O=dayStr(4); - break; - case 9: // Thursday. - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & Bits[4]) == Bits[4]) ? GxEPD_WHITE : GxEPD_BLACK); - O=dayStr(5); - break; - case 10: // Friday. - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & Bits[5]) == Bits[5]) ? GxEPD_WHITE : GxEPD_BLACK); - O=dayStr(6); - break; - case 11: // Saturday. - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & Bits[6]) == Bits[6]) ? GxEPD_WHITE : GxEPD_BLACK); - O=dayStr(7); - break; - case 12: // Repeat - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & ALARM_REPEAT) == ALARM_REPEAT) ? GxEPD_WHITE : GxEPD_BLACK); - O="Repeat"; - break; - case 13: // Active - display.setTextColor(((Alarms_Active[Menu.Item - MENU_ALARM1] & ALARM_ACTIVE) == ALARM_ACTIVE) ? GxEPD_WHITE : GxEPD_BLACK); - O="Active"; - } - }else if (Menu.Item == MENU_TONES){ // Repeats on Alarms. - O = getReduce(Options.MasterRepeats) + " repeats"; - }else if (Menu.Item == MENU_TIMERS){ // Timers - O = "MENU to Select"; - }else if (Menu.Item == MENU_TIMEDN){ // Countdown - S=MakeMinutes(TimerDown.Active ? TimerDown.Mins : TimerDown.MaxMins); - switch (Menu.SubItem){ - case 0: - O = "MENU to Edit"; - break; - case 1: // Hours - O="[" + String(TimerDown.Active ? TimerDown.Hours : TimerDown.MaxHours) + "]:" + S + " " + getReduce(TimerDown.MaxTones) + " " + (TimerDown.Active ? "Off" : "On"); - break; - case 2: // 1x minutes. - O=String(TimerDown.Active ? TimerDown.Hours : TimerDown.MaxHours) + ":[" + S.charAt(0) + "]" + S.charAt(1) + " " + getReduce(TimerDown.MaxTones) + " " + (TimerDown.Active ? "Off" : "On"); - break; - case 3: // x1 minutes. - O=String(TimerDown.Active ? TimerDown.Hours : TimerDown.MaxHours) + ":" + S.charAt(0) + "[" + S.charAt(1) + "] " + getReduce(TimerDown.MaxTones) + " " + (TimerDown.Active ? "Off" : "On"); - break; - case 4: // % - O=String(TimerDown.Active ? TimerDown.Hours : TimerDown.MaxHours) + ":" + S.charAt(0) + S.charAt(1) + " [" + getReduce(TimerDown.MaxTones) + "] " + (TimerDown.Active ? "Off" : "On"); - break; - case 5: // Button. - O=String(TimerDown.Active ? TimerDown.Hours : TimerDown.MaxHours) + ":" + S + " " + getReduce(TimerDown.MaxTones) + " " + (TimerDown.Active ? " [Off]" : " [On]"); - } - }else if (Menu.Item == MENU_TIMEUP){ // Elapsed - switch (Menu.SubItem){ - case 0: - O = "MENU to Edit"; - break; - case 1: - if (TimerUp.Active) { y1 = ((WatchTime.UTC_RAW - (TimerUp.SetAt + WatchTime.UTC.Second)) / 3600); x1 = (((WatchTime.UTC_RAW - (TimerUp.SetAt + WatchTime.UTC.Second)) + 3600 * y1) / 60); } - else { y1 = ((TimerUp.StopAt - TimerUp.SetAt) / 3600); x1 = (((TimerUp.StopAt - TimerUp.SetAt) + 3600 * y1) / 60); } - O=String(y1) + ":" + MakeMinutes(x1) + (TimerUp.Active ? " [Off]" : " [On]"); - } - }else if (Menu.Item == MENU_OPTIONS){ // Options Menu - O = "MENU to Enter"; - }else if (Menu.Item == MENU_DISP){ // Switch Mode - if (Options.LightMode){ - O = "Light"; - }else { - O = "Dark"; - } - }else if (Menu.Item == MENU_SIDE){ // Dexterity Mode - if (Options.Lefty){ - O = "Left-handed"; - }else { - O = "Right-handed"; - } - }else if (Menu.Item == MENU_SWAP){ // Swap Menu/Back Buttons - if (Options.Swapped){ - O = "Swapped"; - }else { - O = "Normal"; - } - }else if (Menu.Item == MENU_BRDR){ // Border Mode - if (Options.Border){ - O = "Hide"; - }else { - O = "Show"; - } - }else if (Menu.Item == MENU_ORNT){ // Watchy Orientation. - if (Options.Orientated){ - O = "Watchy UP"; - }else { - O = "Ignore"; - } - }else if (Menu.Item == MENU_MODE){ // 24hr Format Swap. - if (Options.TwentyFour){ - O = "24 Hour"; - }else { - O = "AM/PM"; - } - }else if (Menu.Item == MENU_FEED){ // Feedback - if (Options.Feedback){ - O = "Enabled"; - }else { - O = "Disabled"; - } - }else if (Menu.Item == MENU_TRBO){ // Turbo! - if (Options.Turbo > 0) O=String(Options.Turbo) + " seconds"; else O = "Off"; - }else if (Menu.Item == MENU_SCRN){ // Reset Screen. - O = "MENU to Reset"; - }else if (Menu.Item == MENU_SYNC){ // NTP - if (Menu.SubItem == 0){ - O = "MENU to Start"; - }else if (Menu.SubItem == 1){ - O = "Time"; - }else if (Menu.SubItem == 2){ - O = "TimeZone"; - }else if (Menu.SubItem == 3){ - O = "TimeZone & Time"; - } - }else if (Menu.Item == MENU_WIFI){ // Reset Steps. - if (Menu.SubItem == 0){ - O = "MENU to Begin"; - }else if (Menu.SubItem == 1){ - O = "Starting AP"; - }else if (Menu.SubItem == 2){ - O = WiFi_AP_SSID; - }else if (Menu.SubItem == 3){ - O = WiFi.softAPIP().toString(); - }else if (Menu.SubItem == 4){ - O = "BACK to End"; - } - }else if (Menu.Item == MENU_OTAU || Menu.Item == MENU_OTAM){ // OTA Update. - if (Menu.SubItem == 0){ - O = "MENU to Connect"; - }else if (Menu.SubItem == 1){ - O = "Connecting..."; - }else if (Menu.SubItem == 2 || Menu.SubItem == 3){ - O = WiFi.localIP().toString(); - } - }else if (Menu.Item == MENU_RSET){ // Reboot Watchy - O = "MENU to Reboot"; - } - if (O > ""){ - display.getTextBounds(O, 0, DataY, &x1, &y1, &w, &h); - w = (196 - w) /2; - display.setCursor(w + 2, DataY); - display.print(O); - } - Updates.Item = (O != Menu.LastItem); - Menu.LastItem = O; -} - -void WatchyGSR::deepSleep(){ - display.hibernate(); - - #ifndef ESP_RTC - esp_sleep_enable_ext0_wakeup(RTC_PIN, 0); //enable deep sleep wake on RTC interrupt - #endif - #ifdef ESP_RTC - esp_sleep_enable_timer_wakeup(60000000); - #endif - esp_sleep_enable_ext1_wakeup(BTN_PIN_MASK, ESP_EXT1_WAKEUP_ANY_HIGH); //enable deep sleep wake on button press - esp_deep_sleep_start(); -} - -void WatchyGSR::detectBattery(){ - float CBAT, BATOff; - CBAT = getBatteryVoltage(); // Check battery against previous versions to determine which direction the battery is going. - BATOff = CBAT - Battery.Last; - //Detect Power direction - - if (BATOff > 0.03){ - Battery.UpCount++; - if (Battery.UpCount > 3){ - Battery.Direction = 1; Battery.UpCount = 0; Battery.DownCount = 0; Battery.Last = CBAT; - // Check if the NTP has been done. - if (WatchTime.UTC_RAW - NTPData.Last > 14400 && NTPData.State == 0){ - NTPData.State = 1; - NTPData.TimeZone = (WatchTime.POSIX[0] == 0); // No Timezone, go get one! - NTPData.UpdateUTC = true; - AskForWiFi(); - } - } - }else{ - if (BATOff < 0.00) Battery.DownCount++; - if (Battery.DownCount > 2){ Battery.Direction = -1; Battery.UpCount = 0; Battery.DownCount = 0; Battery.Last = CBAT; } - } -} - -void WatchyGSR::ProcessNTP(){ - // Do ProgressNTP here. - switch (NTPData.State){ - // Start WiFi and Connect. - case 1:{ - HTTP.setUserAgent(UserAgent); - if (WiFi.status() != WL_CONNECTED){ - if(currentWiFi() == WL_CONNECT_FAILED){ - NTPData.Pause = 0; - NTPData.State = 99; - break; - } - } - NTPData.Wait = 0; - NTPData.Pause = 80; - NTPData.State++; - break; - } - - // Am I Connected? If so, ask for NTP. - case 2:{ - if (WiFi.status() != WL_CONNECTED){ - if(currentWiFi() == WL_CONNECT_FAILED){ - NTPData.Pause = 0; - NTPData.State = 99; - break; - } - NTPData.Pause = 80; - if (NTPData.Wait > 2){ - NTPData.Pause = 0; - NTPData.State = 99; - break; - } - break; - } - if (NTPData.TimeZone == false){ - NTPData.State = 5; - NTPData.Pause = 0; - break; - } - - NTPData.State++; - setStatus("TZ"); - // Do the next part. - HTTP.begin(WiFiC, TZURL); // Call it and leave. - NTPData.Wait = 0; - NTPData.Pause = 80; - break; - } - - case 3:{ - // Get GeoLocation - if (WiFi.status() == WL_DISCONNECTED){ - NTPData.Pause = 0; - NTPData.State = 99; - break; - } - if (HTTP.GET() == HTTP_CODE_OK) { - String payload = HTTP.getString(); - JSONVar root = JSON.parse(payload); - String S = JSON.stringify(root["timezone"]); - S.replace('"',' '); - S.trim(); - WatchTime.TimeZone = S; - HTTP.end(); - NTPData.Wait = 0; - NTPData.Pause = 0; - NTPData.State++; // Test - } - break; - } - - case 4:{ - // Process Timezone POSIX. - String NewTZ = OP.getPOSIX(WatchTime.TimeZone); - if(NewTZ == OP.TZMISSING){ - NTPData.Pause = 0; - NTPData.State = 99; - break; - }else if (NewTZ ==""){ - break; - } - strcpy(WatchTime.POSIX, NewTZ.c_str()); - NTPData.Wait = 0; - NTPData.Pause = 0; - NTPData.State++; - if (!NTPData.UpdateUTC) UpdateDisp=true; - break; - } - - case 5:{ - if (NTPData.UpdateUTC == false || WiFi.status() == WL_DISCONNECTED){ - NTPData.State = 99; - NTPData.Pause = 0; - break; - } - setStatus("NTP"); - configTime(0,0,"132.246.11.237","132.246.11.227"); - NTPData.Wait = 0; - NTPData.Pause = 20; - NTPData.State++; - break; - } - - case 6:{ - if (time(nullptr) < 1000000000l){ - if (NTPData.Wait > 2){ - NTPData.Pause = 0; - NTPData.State = 99; - break; - } - break; - } - WatchTime.UTC_RAW = time(nullptr); - NTPData.Last = WatchTime.UTC_RAW; - tmElements_t TM; - breakTime(WatchTime.UTC_RAW,TM); - RTC.write(TM); - NTPData.Pause = 0; - NTPData.State = 99; - break; - } - - case 99:{ - OTAEnd = true; - NTPData.Wait = 0; - NTPData.Pause = 0; - NTPData.State = 0; - NTPData.UpdateUTC = false; - NTPData.TimeZone = false; - Battery.UpCount=0; // Stop it from thinking the battery went wild. - } - } -} - -void WatchyGSR::drawChargeMe(){ - // Shows Battery Direction indicators. - int8_t D = 0; - if (Battery.Direction == 1){ - // Show Battery charging bitmap. - display.drawBitmap(155, 178, Charging, 40, 17, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - D = 2; - }else if (Battery.Direction == -1 && getBatteryVoltage() < MinBattery){ - // Show Battery needs charging bitmap. - display.drawBitmap(155, 178, ChargeMe, 40, 17, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - D = 1; - } - Updates.Charge = (D != Battery.LastState); - Battery.LastState = D; -} - -void WatchyGSR::drawStatus(){ - if (WatchyStatus > ""){ - display.fillRect(NTPX, NTPY - 19, 60, 20, Options.LightMode ? GxEPD_WHITE : GxEPD_BLACK); - display.setFont(&Bronova_Regular13pt7b); - display.setCursor(NTPX + 17, NTPY); -// display.setTextColor(Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); -// display.print(WatchyStatus); - if (WatchyStatus.startsWith("WiFi")){ - display.drawBitmap(NTPX, NTPY - 18, iWiFi, 19, 19, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - display.print(WatchyStatus.substring(4)); - } - else if (WatchyStatus == "TZ") display.drawBitmap(NTPX, NTPY - 18, iTZ, 19, 19, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - else if (WatchyStatus == "NTP") display.drawBitmap(NTPX, NTPY - 18, iSync, 19, 19, Options.LightMode ? GxEPD_BLACK : GxEPD_WHITE); - } -} - -void WatchyGSR::setStatus(String Status){ - if (WatchyStatus != Status){ - WatchyStatus = Status; - Updates.Status=true; - UpdateDisp=true; - } -} - -void WatchyGSR::VibeTo(bool Mode){ - if (Mode != VibeMode){ - if (Mode){ - sensor.enableFeature(BMA423_WAKEUP, false); - pinMode(VIB_MOTOR_PIN, OUTPUT); - digitalWrite(VIB_MOTOR_PIN, true); - }else{ - digitalWrite(VIB_MOTOR_PIN, false); - sensor.enableFeature(BMA423_WAKEUP, true); - } - VibeMode = Mode; - } -} - -/* -void WatchyGSR::handleAccelerometer(){ - uint8_t Direction; - - //Serial.println("Accel int."); - if (sensor.isTilt()){ - DBug("Tilt!!!"); - Direction = sensor.getDirection(); // Directional screen on. == DIRECTION_DISP_UP - if ((Direction == DIRECTION_DISP_UP) != ScreenOn){ - UpdateDisp = true; // Update Screen to new state. - } - }else if (sensor.isDoubleClick()){ - DBug("Double Tap!"); - } -}*/ - -void WatchyGSR::handleButtonPress(uint8_t Pressed){ - uint8_t Direction; - int ml, mh; - - // Check to see if screen is upward, if it is/isn't, make sure it matches. - Direction = sensor.getDirection(); // Directional screen on. == DIRECTION_DISP_UP - - /* Not sure if this Wrist wake is worth the effort or the battery abuse. - if (wakeupBit & ACC_INT_MASK){ // Movement caused this. - //Serial.println("Accel int."); - if ((Direction == DIRECTION_DISP_UP) != ScreenOn){ - UpdateDisp = true; // Update Screen to new state. - } - } - */ - - if (Options.Orientated) { if (Direction != DIRECTION_DISP_UP && Direction != DIRECTION_TOP_EDGE) return; } // Don't accept it. - - switch (Pressed){ - case 1: - if (GuiMode != MENUON){ - GuiMode = MENUON; - Menu.LastItem=""; - Menu.LastHeader=""; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (GuiMode == MENUON){ - if (Menu.Item == MENU_OPTIONS && Menu.SubItem == 0){ // Options - Menu.Item = MENU_DISP; - Menu.Style = MENU_INOPTIONS; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_STEPS){ // Steps - if (Menu.SubItem == 4){ - sensor.resetStepCounter(); - Menu.SubItem = 0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem < 4){ - Menu.SubItem++; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item == MENU_ALARMS){ // Alarms menu. - Menu.Style = MENU_INALARMS; - Menu.Item = MENU_ALARM1; - DoHaptic = true; - UpdateDisp = true; - SetTurbo(); - }else if (Menu.Item >= MENU_ALARM1 && Menu.Item <= MENU_ALARM4){ // Alarms - if (Menu.SubItem < 5){ - Menu.SubItem++; - if (Menu.SubItem == 5) Menu.SubItem += WatchTime.Local.Wday; // Jump ahead to the day. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem > 4 && Menu.SubItem < 12){ - Alarms_Active[Menu.Item - MENU_ALARM1] ^= Bits[Menu.SubItem - 5]; // Toggle day. - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 12){ - Alarms_Active[Menu.Item - MENU_ALARM1] ^= ALARM_REPEAT; // Toggle repeat. - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 13){ - Alarms_Active[Menu.Item - MENU_ALARM1] ^= ALARM_ACTIVE; // Toggle Active. - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item == MENU_TONES){ // Tones. - Options.MasterRepeats = clamp(Options.MasterRepeats + 1, 0, 4); - Alarms_Repeats[0] = Options.MasterRepeats; - Alarms_Repeats[1] = Options.MasterRepeats; - Alarms_Repeats[2] = Options.MasterRepeats; - Alarms_Repeats[3] = Options.MasterRepeats; - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_TIMERS){ // Timers menu. - Menu.Style = MENU_INTIMERS; - Menu.Item = MENU_TIMEDN; - DoHaptic = true; - UpdateDisp = true; - SetTurbo(); - }else if (Menu.Item == MENU_TIMEDN){ - if (Menu.SubItem == 5){ - if (TimerDown.Active){ - TimerDown.Active=false; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if ((TimerDown.MaxMins + TimerDown.MaxHours) > 0){ - TimerDown.Mins = TimerDown.MaxMins; - TimerDown.Hours = TimerDown.MaxHours; - TimerDown.LastUTC = WatchTime.UTC_RAW - WatchTime.UTC.Second; - TimerDown.Active = true; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else{ - Menu.SubItem++; - if (TimerDown.MaxMins + TimerDown.MaxHours == 0 && Menu.SubItem == 5) Menu.SubItem = 4; //Stop it from being startable. - if (TimerDown.Active) Menu.SubItem = 5; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item == MENU_TIMEUP){ - if (Menu.SubItem == 0){ - Menu.SubItem = 1; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else{ - if (TimerUp.Active){ - TimerUp.StopAt = WatchTime.UTC_RAW - WatchTime.UTC.Second; - TimerUp.Active = false; - }else{ - TimerUp.SetAt = WatchTime.UTC_RAW - WatchTime.UTC.Second; - TimerUp.StopAt = TimerUp.SetAt; - TimerUp.Active = true; - } - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item == MENU_SYNC){ // Sync Time - if (Menu.SubItem == 0){ - Menu.SubItem++; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else{ - NTPData.State = 1; - switch (Menu.SubItem){ - case 1: - NTPData.UpdateUTC = true; - NTPData.TimeZone = (WatchTime.POSIX[0] == 0); // No Timezone, go get one! - break; - case 2: - NTPData.UpdateUTC = false; - NTPData.TimeZone = true; - break; - case 3: - NTPData.TimeZone = true; - NTPData.UpdateUTC = true; - } - GuiMode = WATCHON; - WatchTime.LastDay=""; - WatchTime.LastDate=""; - Menu.Item = MENU_DISP; - Menu.SubItem = 0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - AskForWiFi(); - } - }else if (Menu.Item == MENU_DISP){ // Switch Mode - Options.LightMode = !Options.LightMode; - Menu.LastItem=""; // Forces a redraw. - Updates.Full = true; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_SIDE){ // Dexterity Mode - Options.Lefty = !Options.Lefty; - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_SWAP){ // Swap Menu/Back Buttons - Options.Swapped = !Options.Swapped; - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_BRDR){ // Border Mode - Options.Border = !Options.Border; - Menu.LastItem=""; // Forces a redraw. - display.init(0,false); // Force it here so it fixes the border. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_ORNT){ // Watchy Orientation - Options.Orientated = !Options.Orientated; - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_MODE){ // Switch Time Mode - Options.TwentyFour = !Options.TwentyFour; - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_FEED){ // Feedback. - Options.Feedback = !Options.Feedback; - Menu.LastItem=""; // Forces a redraw. - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_TRBO){ // Turbo - Options.Turbo = roller(Options.Turbo + 1, 0, 10); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_SCRN){ // Reset Screen - GuiMode = WATCHON; - WatchTime.LastDay=""; - WatchTime.LastDate=""; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - Updates.Full = true; - SetTurbo(); - }else if (Menu.Item == MENU_WIFI){ // Watchy Connect - Menu.SubItem++; - WatchyAPOn = true; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_OTAU || Menu.Item == MENU_OTAM){ // Watchy OTA - Menu.SubItem++; - OTAUpdate=true; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - AskForWiFi(); - }else if (Menu.Item == MENU_RSET){ // Watchy Reboot - ESP.restart(); - } - } - break; - case 2: - if (GuiMode == MENUON){ // Back Button [SW2] - if (Menu.Item == MENU_STEPS && Menu.SubItem > 0) { // Exit for Steps, back to Steps. - if (Menu.SubItem == 4) Menu.SubItem = 2; // Go back to the Hour, so it is the same as the alarms. - Menu.SubItem--; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item >= MENU_ALARM1 && Menu.Item <= MENU_ALARM4 && Menu.SubItem > 0){ - if (Menu.SubItem < 5 && Menu.SubItem > 0){ - Menu.SubItem--; - }else if (Menu.SubItem > 4){ - Menu.SubItem = 1; - } - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_TIMEDN && Menu.SubItem > 0){ - Menu.SubItem--; - if (TimerDown.Active) Menu.SubItem = 0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_TIMEUP && Menu.SubItem > 0){ - Menu.SubItem = 0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_SYNC && Menu.SubItem > 0){ - Menu.SubItem = 0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_WIFI && Menu.SubItem > 0){ - Menu.SubItem = 0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if ((Menu.Item == MENU_OTAU || Menu.Item == MENU_OTAM) && Menu.SubItem > 0){ - break; // DO NOTHING! - }else if (Menu.Style == MENU_INALARMS){ // Alarms - Menu.Style = MENU_INNORMAL; - Menu.Item = MENU_ALARMS; - DoHaptic = true; - UpdateDisp = true; - SetTurbo(); - }else if (Menu.Style == MENU_INTIMERS){ // Timers - Menu.Style = MENU_INNORMAL; - Menu.Item = MENU_TIMERS; - DoHaptic = true; - UpdateDisp = true; - SetTurbo(); - }else if (Menu.Style == MENU_INOPTIONS){ // Options - Menu.SubItem = 0; - Menu.SubSubItem = 0; - Menu.Item=MENU_OPTIONS; - Menu.Style=MENU_INNORMAL; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else{ - GuiMode = WATCHON; - WatchTime.LastDay=""; - WatchTime.LastDate=""; - Menu.SubItem = 0; - Menu.SubSubItem = 0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - } - break; - case 3: - if (GuiMode == MENUON){ // Up Button [SW3] - // Handle the sideways choices here. - if (Menu.Item == MENU_STEPS && Menu.SubItem > 0){ - switch (Menu.SubItem){ - case 1: // Hour - Steps.Hour=roller(Steps.Hour + 1, 0,23); - Steps.Reset = false; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 2: // x0 Minutes - mh = (Steps.Minutes / 10); - ml = Steps.Minutes - (mh * 10); - mh = roller(mh + 1, 0, 5); - Steps.Minutes = (mh * 10) + ml; - Steps.Reset = false; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 3: // x0 Minutes - mh = (Steps.Minutes / 10); - ml = Steps.Minutes - (mh * 10); - ml = roller(ml + 1, 0, 9); - Steps.Minutes = (mh * 10) + ml; - Steps.Reset = false; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item >= MENU_ALARM1 && Menu.Item <= MENU_ALARM4 && Menu.SubItem > 0){ - if (Menu.SubItem == 1){ // Hour - Alarms_Hour[Menu.Item - MENU_ALARM1]=roller(Alarms_Hour[Menu.Item - MENU_ALARM1] + 1, 0,23); - Alarms_Active[Menu.Item - MENU_ALARM1] &= ALARM_NOTRIGGER; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 2){ // x0 Minutes - mh = (Alarms_Minutes[Menu.Item - MENU_ALARM1] / 10); - ml = Alarms_Minutes[Menu.Item - MENU_ALARM1] - (mh * 10); - mh = roller(mh + 1, 0, 5); - Alarms_Minutes[Menu.Item - MENU_ALARM1] = (mh * 10) + ml; - Alarms_Active[Menu.Item - MENU_ALARM1] &= ALARM_NOTRIGGER; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 3){ // x0 Minutes - mh = (Alarms_Minutes[Menu.Item - MENU_ALARM1] / 10); - ml = Alarms_Minutes[Menu.Item - MENU_ALARM1] - (mh * 10); - ml = roller(ml + 1, 0, 9); - Alarms_Minutes[Menu.Item - MENU_ALARM1] = (mh * 10) + ml; - Alarms_Active[Menu.Item - MENU_ALARM1] &= ALARM_NOTRIGGER; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 4){ // Repeats. - Alarms_Repeats[Menu.Item - MENU_ALARM1] = roller(Alarms_Repeats[Menu.Item - MENU_ALARM1] - 1, 0, 4); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem > 4){ - Menu.SubItem = roller(Menu.SubItem + 1, 5, 13); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - } else if (Menu.Item == MENU_TIMEDN && Menu.SubItem > 0){ - switch (Menu.SubItem){ - case 1: // Hour - TimerDown.MaxHours=roller(TimerDown.MaxHours + 1, 0,23); - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 2: // x0 Minutes - mh = (TimerDown.MaxMins / 10); - ml = TimerDown.MaxMins - (mh * 10); - mh = roller(mh + 1, 0, 5); - TimerDown.MaxMins = (mh * 10) + ml; - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 3: // x0 Minutes - mh = (TimerDown.MaxMins / 10); - ml = TimerDown.MaxMins - (mh * 10); - ml = roller(ml + 1, 0, 9); - TimerDown.MaxMins = (mh * 10) + ml; - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 4: //Repeats - TimerDown.MaxTones = roller(TimerDown.MaxTones - 1, 0, 4); - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item == MENU_SYNC && Menu.SubItem > 0){ - Menu.SubItem = roller(Menu.SubItem - 1, 1, 3); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_WIFI && Menu.SubItem > 0){ - // Do nothing! - }else{ - if (Menu.Style == MENU_INOPTIONS){ - Menu.Item = roller(Menu.Item - 1, MENU_DISP, (NTPData.State > 0 || WatchyAPOn || OTAUpdate || getBatteryVoltage() < MinBattery) ? MENU_SCRN : MENU_RSET); - }else if (Menu.Style == MENU_INALARMS){ - Menu.Item = roller(Menu.Item - 1, MENU_ALARM1, MENU_TONES); - }else if (Menu.Style == MENU_INTIMERS){ - Menu.Item = roller(Menu.Item - 1, MENU_TIMEDN, MENU_TIMEUP); - }else{ - Menu.Item = roller(Menu.Item - 1, MENU_STEPS, MENU_OPTIONS); - } - Menu.SubItem=0; - Menu.SubSubItem=0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - } - break; - case 4: - if (GuiMode == MENUON){ // Down Button [SW4] - // Handle the sideways choices here. - if (Menu.Item == MENU_STEPS && Menu.SubItem > 0){ - switch (Menu.SubItem){ - case 1: // Hour - Steps.Hour=roller(Steps.Hour - 1, 0,23); - Steps.Reset = false; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 2: // x0 Minutes - mh = (Steps.Minutes / 10); - ml = Steps.Minutes - (mh * 10); - mh = roller(mh - 1, 0, 5); - Steps.Minutes = (mh * 10) + ml; - Steps.Reset = false; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 3: // x0 Minutes - mh = (Steps.Minutes / 10); - ml = Steps.Minutes - (mh * 10); - ml = roller(ml - 1, 0, 9); - Steps.Minutes = (mh * 10) + ml; - Steps.Reset = false; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item >= MENU_ALARM1 && Menu.Item <= MENU_ALARM4 && Menu.SubItem > 0){ - if (Menu.SubItem == 1){ // Hour - Alarms_Hour[Menu.Item - MENU_ALARM1]=roller(Alarms_Hour[Menu.Item - MENU_ALARM1] - 1, 0,23); - Alarms_Active[Menu.Item - MENU_ALARM1] &= ALARM_NOTRIGGER; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 2){ // x0 Minutes - mh = (Alarms_Minutes[Menu.Item - MENU_ALARM1] / 10); - ml = Alarms_Minutes[Menu.Item - MENU_ALARM1] - (mh * 10); - mh = roller(mh - 1, 0, 5); - Alarms_Minutes[Menu.Item - MENU_ALARM1] = (mh * 10) + ml; - Alarms_Active[Menu.Item - MENU_ALARM1] &= ALARM_NOTRIGGER; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 3){ // x0 Minutes - mh = (Alarms_Minutes[Menu.Item - MENU_ALARM1] / 10); - ml = Alarms_Minutes[Menu.Item - MENU_ALARM1] - (mh * 10); - ml = roller(ml - 1, 0, 9); - Alarms_Minutes[Menu.Item - MENU_ALARM1] = (mh * 10) + ml; - Alarms_Active[Menu.Item - MENU_ALARM1] &= ALARM_NOTRIGGER; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem == 4){ // Repeats. - Alarms_Repeats[Menu.Item - MENU_ALARM1] = roller(Alarms_Repeats[Menu.Item - MENU_ALARM1] + 1, 0, 4); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.SubItem > 4){ - Menu.SubItem = roller(Menu.SubItem - 1, 5, 13); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - } else if (Menu.Item == MENU_TIMEDN && Menu.SubItem > 0){ - switch (Menu.SubItem){ - case 1: // Hour - TimerDown.MaxHours=roller(TimerDown.MaxHours - 1, 0,23); - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 2: // x0 Minutes - mh = (TimerDown.MaxMins / 10); - ml = TimerDown.MaxMins - (mh * 10); - mh = roller(mh - 1, 0, 5); - TimerDown.MaxMins = (mh * 10) + ml; - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 3: // x0 Minutes - mh = (TimerDown.MaxMins / 10); - ml = TimerDown.MaxMins - (mh * 10); - ml = roller(ml - 1, 0, 9); - TimerDown.MaxMins = (mh * 10) + ml; - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - break; - case 4: //Repeats - TimerDown.MaxTones = roller(TimerDown.MaxTones + 1, 0, 4); - StopCD(); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - }else if (Menu.Item == MENU_SYNC && Menu.SubItem > 0){ - Menu.SubItem = roller(Menu.SubItem + 1, 1, 3); - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - }else if (Menu.Item == MENU_WIFI && Menu.SubItem > 0){ - // Do nothing! - }else{ - if (Menu.Style == MENU_INOPTIONS){ - Menu.Item = roller(Menu.Item + 1, MENU_DISP, (NTPData.State > 0 || WatchyAPOn || OTAUpdate || getBatteryVoltage() < MinBattery) ? MENU_SCRN : MENU_RSET); - }else if (Menu.Style == MENU_INALARMS){ - Menu.Item = roller(Menu.Item + 1, MENU_ALARM1, MENU_TONES); - }else if (Menu.Style == MENU_INTIMERS){ - Menu.Item = roller(Menu.Item + 1, MENU_TIMEDN, MENU_TIMEUP); - }else{ - Menu.Item = roller(Menu.Item + 1, MENU_STEPS, MENU_OPTIONS); - } - Menu.SubItem=0; - Menu.SubSubItem=0; - DoHaptic = true; - UpdateDisp = true; // Quick Update. - SetTurbo(); - } - } - } -} - -void WatchyGSR::UpdateUTC(){ - tmElements_t TM; // struct tm * tm; - RTC.read(TM); - WatchTime.UTC = TM; - WatchTime.UTC_RAW = makeTime(TM); -} - -void WatchyGSR::UpdateClock(){ - struct tm * tm; - setenv("TZ",WatchTime.POSIX,1); - tzset(); - tm = localtime(&WatchTime.UTC_RAW); - WatchTime.Local.Second = tm->tm_sec; - WatchTime.Local.Minute = tm->tm_min; - WatchTime.Local.Hour = tm->tm_hour; - WatchTime.Local.Wday = tm->tm_wday; - WatchTime.Local.Day = tm->tm_mday; - WatchTime.Local.Month = tm->tm_mon + 1; - WatchTime.Local.Year = tm->tm_year; -} - -void WatchyGSR::_rtcConfig() { - tmElements_t TM; - //https://github.com/JChristensen/DS3232RTC - RTC.squareWave(SQWAVE_NONE); //disable square wave output - //RTC.set(compileTime()); //set RTC time to compile time - RTC.setAlarm(ALM2_EVERY_MINUTE, 0, 0, 0, 0); //alarm wakes up Watchy every minute - RTC.alarmInterrupt(ALARM_2, true); //enable alarm interrupt - RTC.read(TM); -} - -void WatchyGSR::_bmaConfig() { - - if (sensor.begin(_readRegister, _writeRegister, delay) == false) { - //fail to init BMA - return; - } - - // Accel parameter structure - Acfg cfg; - /*! - Output data rate in Hz, Optional parameters: - - BMA4_OUTPUT_DATA_RATE_0_78HZ - - BMA4_OUTPUT_DATA_RATE_1_56HZ - - BMA4_OUTPUT_DATA_RATE_3_12HZ - - BMA4_OUTPUT_DATA_RATE_6_25HZ - - BMA4_OUTPUT_DATA_RATE_12_5HZ - - BMA4_OUTPUT_DATA_RATE_25HZ - - BMA4_OUTPUT_DATA_RATE_50HZ - - BMA4_OUTPUT_DATA_RATE_100HZ - - BMA4_OUTPUT_DATA_RATE_200HZ - - BMA4_OUTPUT_DATA_RATE_400HZ - - BMA4_OUTPUT_DATA_RATE_800HZ - - BMA4_OUTPUT_DATA_RATE_1600HZ - */ - cfg.odr = BMA4_OUTPUT_DATA_RATE_100HZ; - /*! - G-range, Optional parameters: - - BMA4_ACCEL_RANGE_2G - - BMA4_ACCEL_RANGE_4G - - BMA4_ACCEL_RANGE_8G - - BMA4_ACCEL_RANGE_16G - */ - cfg.range = BMA4_ACCEL_RANGE_2G; - /*! - Bandwidth parameter, determines filter configuration, Optional parameters: - - BMA4_ACCEL_OSR4_AVG1 - - BMA4_ACCEL_OSR2_AVG2 - - BMA4_ACCEL_NORMAL_AVG4 - - BMA4_ACCEL_CIC_AVG8 - - BMA4_ACCEL_RES_AVG16 - - BMA4_ACCEL_RES_AVG32 - - BMA4_ACCEL_RES_AVG64 - - BMA4_ACCEL_RES_AVG128 - */ - cfg.bandwidth = BMA4_ACCEL_NORMAL_AVG4; - - /*! Filter performance mode , Optional parameters: - - BMA4_CIC_AVG_MODE - - BMA4_CONTINUOUS_MODE - */ - cfg.perf_mode = BMA4_CONTINUOUS_MODE; - - // Configure the BMA423 accelerometer - sensor.setAccelConfig(cfg); - - // Enable BMA423 accelerometer - // Warning : Need to use feature, you must first enable the accelerometer - sensor.enableAccel(); - - struct bma4_int_pin_config config ; - config.edge_ctrl = BMA4_LEVEL_TRIGGER; - config.lvl = BMA4_ACTIVE_HIGH; - config.od = BMA4_PUSH_PULL; - config.output_en = BMA4_OUTPUT_ENABLE; - config.input_en = BMA4_INPUT_DISABLE; - // The correct trigger interrupt needs to be configured as needed - sensor.setINTPinConfig(config, BMA4_INTR1_MAP); - - struct bma423_axes_remap remap_data; - remap_data.x_axis = 1; - remap_data.x_axis_sign = 0xFF; - remap_data.y_axis = 0; - remap_data.y_axis_sign = 0xFF; - remap_data.z_axis = 2; - remap_data.z_axis_sign = 0xFF; - // Need to raise the wrist function, need to set the correct axis - sensor.setRemapAxes(&remap_data); - - // Enable BMA423 isStepCounter feature - sensor.enableFeature(BMA423_STEP_CNTR, true); - // Enable BMA423 isTilt feature - //sensor.enableFeature(BMA423_TILT, true); - // Enable BMA423 isDoubleClick feature - //sensor.enableFeature(BMA423_WAKEUP, true); - - // Reset steps - //sensor.resetStepCounter(); - - // Turn on feature interrupt - //sensor.enableStepCountInterrupt(); - //sensor.enableTiltInterrupt(); - // It corresponds to isDoubleClick interrupt - //sensor.enableWakeupInterrupt(); -} - -float WatchyGSR::getBatteryVoltage(){ - float A, B, C, D; - A = analogRead(ADC_PIN) - 0.0125; - B = analogRead(ADC_PIN) - 0.0125; - C = analogRead(ADC_PIN) - 0.0125; - D = analogRead(ADC_PIN) - 0.0125; - return (((A + B + C + D) / 16384.0) * 7.23); -} - -uint16_t WatchyGSR::_readRegister(uint8_t address, uint8_t reg, uint8_t *data, uint16_t len) { - Wire.beginTransmission(address); - Wire.write(reg); - Wire.endTransmission(); - Wire.requestFrom((uint8_t)address, (uint8_t)len); - uint8_t i = 0; - while (Wire.available()) { - data[i++] = Wire.read(); - } - return 0; -} - -uint16_t WatchyGSR::_writeRegister(uint8_t address, uint8_t reg, uint8_t *data, uint16_t len) { - Wire.beginTransmission(address); - Wire.write(reg); - Wire.write(data, len); - return (0 != Wire.endTransmission()); -} - -String WatchyGSR::MakeTime(int Hour, int Minutes, bool& Alarm) { // Use variable with Alarm, if set to False on the way in, returns PM indication. - int H; - String AP; - H = Hour; - if (!Options.TwentyFour){ - if (H > 11){ - AP = " PM"; - if (!Alarm){ - Alarm = true; // Tell the clock to use the PM indicator. - } - }else{ - AP = " AM"; - } - if (H > 12){ - H -= 12; - }else if (H == 0){ - H = 12; - } - } - return String(H) + (Minutes < 10 ? ":0" : ":") + String(Minutes) + (!Options.TwentyFour ? AP : ""); -} - -String WatchyGSR::MakeHour(uint8_t Hour){ - int H; - H = Hour; - if (!Options.TwentyFour){ - if (H > 12){ - H -= 12; - } - if (H == 0){ - H = 12; - } - } - return String(H); -} - -String WatchyGSR::MakeMinutes(uint8_t Minutes){ - return (Minutes < 10 ? "0" : "") + String(Minutes); -} - -String WatchyGSR::MakeSteps(uint32_t uSteps){ - String S, T, X; - int I, C; - - S = String(uSteps); - I = S.length(); - C = 0; T = ""; - - while (I > 0){ - X = (I > 1 && C == 2) ? "," : ""; - T = X + S.charAt(I - 1) + T; - C = roller(C + 1, 0, 2); I--; - } - return T; -} - -void WatchyGSR::CheckAlarm(int I){ - uint16_t B; - bool bA; - B = (ALARM_ACTIVE | Bits[WatchTime.Local.Wday]); - bA = (Alarms_Hour[I] == WatchTime.Local.Hour && Alarms_Minutes[I] == WatchTime.Local.Minute); - if (!bA && Alarms_Times[I] == 0 && (Alarms_Active[I] & ALARM_TRIGGERED) != 0){ - Alarms_Active[I] &= ALARM_NOTRIGGER; - }else if ((Alarms_Active[I] & B) == B){ // Active and Active Day. - if (bA && Alarms_Times[I] == 0 && (Alarms_Active[I] & ALARM_TRIGGERED) == 0){ - Alarms_Times[I] = 255; - Alarms_Playing[I] = 30; - Alarms_Active[I] |= ALARM_TRIGGERED; - if ((Alarms_Active[I] & ALARM_REPEAT) == 0){ - Alarms_Active[I] &= (ALARM_ALL - Bits[WatchTime.Local.Wday]); - if ((Alarms_Active[I] & ALARM_DAYS) == 0){ - Alarms_Active[I] ^= ALARM_ACTIVE; // Turn it off, not repeating. - } - } - } - } -} - -void WatchyGSR::CheckCD(){ - uint16_t M = ((WatchTime.UTC_RAW - TimerDown.LastUTC) / 60); - uint16_t E; - - if ( M > 0){ - TimerDown.LastUTC = WatchTime.UTC_RAW; - E = TimerDown.Mins + (TimerDown.Hours * 60) - M; - TimerDown.Hours = (E / 60); - TimerDown.Mins = E - (TimerDown.Hours * 60); - } - if (TimerDown.Hours == 0 && TimerDown.Mins == 0 && TimerDown.Active){ - TimerDown.Tone = 24; - TimerDown.ToneLeft = 255; - TimerDown.Active = false; - UpdateDisp = true; // Quick Update. - } -} - -// Counts the active (255) alarms/timers and after 3, sets them to lower values. -void WatchyGSR::CalculateTones(){ - uint8_t Count = 0; - CheckAlarm(0); CheckAlarm(1); CheckAlarm(2); CheckAlarm(3); CheckCD(); - if (Alarms_Times[0] > 0) Count++; - if (Alarms_Times[1] > 0) Count++; - if (Alarms_Times[2] > 0) Count++; - if (Alarms_Times[3] > 0) Count++; - if (TimerDown.ToneLeft > 0) Count++; - if (Count == 5){ - if (Alarms_Times[0] == 255) Alarms_Times[0] = 7 * Reduce[Alarms_Repeats[0]]; - if (Alarms_Times[1] == 255) Alarms_Times[1] = 7 * Reduce[Alarms_Repeats[1]]; - if (Alarms_Times[2] == 255) Alarms_Times[2] = 7 * Reduce[Alarms_Repeats[2]]; - if (Alarms_Times[3] == 255) Alarms_Times[3] = 7 * Reduce[Alarms_Repeats[3]]; - if (TimerDown.ToneLeft == 255) TimerDown.ToneLeft = 10 * Reduce[TimerDown.MaxTones]; - }else if (Count == 4){ - if (Alarms_Times[0] == 255) Alarms_Times[0] = 8 * Reduce[Alarms_Repeats[0]]; - if (Alarms_Times[1] == 255) Alarms_Times[1] = 8 * Reduce[Alarms_Repeats[1]]; - if (Alarms_Times[2] == 255) Alarms_Times[2] = 8 * Reduce[Alarms_Repeats[2]]; - if (Alarms_Times[3] == 255) Alarms_Times[3] = 8 * Reduce[Alarms_Repeats[3]]; - if (TimerDown.ToneLeft == 255) TimerDown.ToneLeft = 12 * Reduce[TimerDown.MaxTones]; - }else{ - if (Alarms_Times[0] == 255) Alarms_Times[0] = 10 * Reduce[Alarms_Repeats[0]]; - if (Alarms_Times[1] == 255) Alarms_Times[1] = 10 * Reduce[Alarms_Repeats[1]]; - if (Alarms_Times[2] == 255) Alarms_Times[2] = 10 * Reduce[Alarms_Repeats[2]]; - if (Alarms_Times[3] == 255) Alarms_Times[3] = 10 * Reduce[Alarms_Repeats[3]]; - if (TimerDown.ToneLeft == 255) TimerDown.ToneLeft = 15 * Reduce[TimerDown.MaxTones]; - } -} - -void WatchyGSR::StopCD(){ - if (TimerDown.ToneLeft > 0){ - TimerDown.ToneLeft = 1; - TimerDown.Tone = 1; - } -} - -uint8_t WatchyGSR::getToneTimes(uint8_t ToneIndex){ - if (ToneIndex > 3) return TimerDown.ToneLeft; - return Alarms_Times[ToneIndex]; -} - -String WatchyGSR::getReduce(uint8_t Amount){ - switch (Amount){ - case 0: - return "Full"; - case 1: - return "80%"; - case 2: - return "60%"; - case 3: - return "40%"; - } - return "20%"; -} - -// Catches Steps and moves "Yesterday" into the other setting. -void WatchyGSR::monitorSteps(){ - if (Steps.Hour == WatchTime.Local.Hour && Steps.Minutes == WatchTime.Local.Minute){ - if (!Steps.Reset){ - Steps.Yesterday=sensor.getCounter(); - sensor.resetStepCounter(); - Steps.Reset=true; - } - }else if (Steps.Reset) Steps.Reset=false; -} - -/* -String WatchyGSR::GetStoredTimezone(){ - esp_err_t err = nvs_flash_init(); - if (err == ESP_ERR_NVS_NO_FREE_PAGES) { - // NVS partition was truncated and needs to be erased - // Retry nvs_flash_init - ESP_ERROR_CHECK(nvs_flash_erase()); - err = nvs_flash_init(); - } - ESP_ERROR_CHECK( err ); - if (nvs_open("Clock",NVS_READWRITE,hNVS) == ESP_OK){ - size_t S; - nvs_get_str(hNVS, "TimeZone", NULL, &S); - if (S > 0){ - char* TZ = malloc(S); - nvs_get_str(hNVS, "TimeZone", TZ, &S); - nvs_close(hNVS); - return TZ; - } - nvs_close(hNVS); - } - return TZMISSING; -} - -bool WatchyGSR::StoreTimezone(String Timezone){ - bool B; - esp_err_t err = nvs_flash_init(); - if (err == ESP_ERR_NVS_NO_FREE_PAGES) { - // NVS partition was truncated and needs to be erased - // Retry nvs_flash_init - ESP_ERROR_CHECK(nvs_flash_erase()); - err = nvs_flash_init(); - } - ESP_ERROR_CHECK( err ); - if (nvs_open("Clock",NVS_READWRITE,hNVS) == ESP_OK){ - B = (nvs_set_str(hNVS,"TimeZone",Timezone) == ESP_OK); - if (B){ - nvs_commit(hNVS); - } - nvs_close(hNVS); - }else{ - return false; - } -} -*/ - -IRAM_ATTR void WatchyGSR::handleInterrupt(){ - uint8_t B = getButtonPins(); - if (B > 0 && (millis() - LastButton) > KEYPAUSE) { Button = B; LastButton = millis(); } -} - -IRAM_ATTR uint8_t WatchyGSR::getButtonPins(){ - bool SW1 = (digitalRead(MENU_BTN_PIN) == 1); - bool SW2 = (digitalRead(BACK_BTN_PIN) == 1); - bool SW3 = (digitalRead(UP_BTN_PIN) == 1); - bool SW4 = (digitalRead(DOWN_BTN_PIN) == 1); - - if (SW1) return Options.Lefty ? 4 : getSwapped(1); - else if (SW2) return Options.Lefty ? 3 : getSwapped(2); - else if (SW3) return Options.Lefty ? getSwapped(2) : 3; - else if (SW4) return Options.Lefty ? getSwapped(1) : 4; - return 0; -} - -uint8_t WatchyGSR::getButtonMaskToID(uint64_t HW){ - if (HW & MENU_BTN_MASK) return Options.Lefty ? 4 : getSwapped(1); // Menu Button [SW1] - else if (HW & BACK_BTN_MASK) return Options.Lefty ? 3 : getSwapped(2); // Back Button [SW2] - else if (HW & UP_BTN_MASK) return Options.Lefty ? getSwapped(2) : 3; // Up Button [SW3] - else if (HW & DOWN_BTN_MASK) return Options.Lefty ? getSwapped(1) : 4; // Down Button [SW4] - return 0; -} - -IRAM_ATTR uint8_t WatchyGSR::getSwapped(uint8_t pIn){ - switch (pIn){ - case 1: - return Options.Swapped ? 2 : 1; - case 2: - return Options.Swapped ? 1 : 2; - } - return 0; -} - -void WatchyGSR::ScreenRefresh(){ - uint16_t XL, YL, XH, YH; - bool DoIt; - - XL = 200; YL = 200; XH = 0; YH = 0; - - if (!Updates.Full){ - DoIt = false; - if (Updates.Time) { XL = 0; YL = TimeY - 45; XH = 200; YH = TimeY; DoIt = true; } - if (Updates.Day) { XL = 0; YL = golow(DayY - 16, YL); XH = 200; YH = gobig(DayY, YH); DoIt = true; } - if (Updates.Date) { XL = 0; YL = golow(DateY - 16,YL); XH = 200; YH = gobig(DateY, YH); DoIt = true; } - if (Updates.Header) { XL = 0; YL = golow(MenuTop, YL); XH = 200; YH = gobig(MenuTop + (MenuHeight / 2), YH); DoIt = true; } - if (Updates.Item) { XL = 0; YL = golow(MenuTop + (MenuHeight / 2), YL); XH = 200; YH = gobig(MenuTop + (MenuHeight / 2), YH); DoIt = true; } - if (Updates.Status) { XL = golow(NTPX, XL); YL = golow(NTPY - 19, YL); XH = gobig(60, XH); YH = gobig(NTPY, YH); DoIt = true; } - if (Updates.Year) { XL = 0; YL = golow(YearY - 17, YL); XH = gobig(154, XH); YH = gobig(YearY, YH); DoIt = true; } - if (Updates.Charge) { XL = golow(155, XL); YL = golow(178, YL); XH = gobig(196, XH); YH = gobig(196, YH); DoIt = true; } - }else{ XL = 0; YL = 0; XH = 200; YH = 200; DoIt = true; } - if (DoIt){ - if(Updates.Full) display.setFullWindow(); else display.setFullWindow(); //init moved, can't do this: display.setPartialWindow(XL, YL, XH - XL, YH - YL); - display.display(!Updates.Full); //partial refresh - } - Updates.Time=false; - Updates.Day=false; - Updates.Date=false; - Updates.Header=false; - Updates.Item=false; - Updates.Status=false; - Updates.Year=false; - Updates.Charge=false; - Updates.Full=false; -} - -void WatchyGSR::AskForWiFi(){ if (!GSRWiFi.Requested && !GSRWiFi.Working) GSRWiFi.Requested = true; } - -void WatchyGSR::processWiFiRequest(){ - wl_status_t WiFiE = WL_CONNECT_FAILED; - wl_status_t rWiFi = WiFi.status(); - String AP, PA; - - if (GSRWiFi.Requested){ - GSRWiFi.Requested = false; - WiFi.disconnect(); - WiFi.setHostname(WiFi_AP_SSID); - WiFi.mode(WIFI_STA); - GSRWiFi.Working = true; - GSRWiFi.Index = 0; - GSRWiFi.Last = 0; - } - - if (GSRWiFi.Working) { - if (rWiFi == WL_CONNECTED) { GSRWiFi.Working = false; GSRWiFi.Results = true; return; } // We got connected. - if (GSRWiFi.Last == 0 || millis() - GSRWiFi.Last > 30000){ - if (GSRWiFi.Index < 11){ - if (GSRWiFi.Last != 0) GSRWiFi.Index++; - GSRWiFi.Last = millis(); - if (GSRWiFi.Index == 0){ - setStatus("WiFi-X"); - WiFi.onEvent(WatchyGSR::WiFiStationDisconnected, SYSTEM_EVENT_STA_DISCONNECTED); - if (WiFi_DEF_SSID > "") WiFiE = WiFi.begin(WiFi_DEF_SSID,WiFi_DEF_PASS); else WiFiE = WiFi.begin(); - if (WiFiE == WL_CONNECT_FAILED) { GSRWiFi.Last = 0; GSRWiFi.Index++; } // Try the next one instantly. - } - if (GSRWiFi.Index > 0){ - AP = APIDtoString(GSRWiFi.Index - 1); PA = PASStoString(GSRWiFi.Index - 1); - if (AP > ""){ - setStatus("WiFi-" + char(64 + GSRWiFi.Index)); - WiFi.disconnect(); - WiFi.onEvent(WatchyGSR::WiFiStationDisconnected, SYSTEM_EVENT_STA_DISCONNECTED); - WiFiE = WiFi.begin(AP.c_str(),PA.c_str()); - } - if (WiFiE == WL_CONNECT_FAILED) { GSRWiFi.Last = 0; GSRWiFi.Index++; } // Try the next one instantly. - } - }else endWiFi(); - } - } -} - -wl_status_t WatchyGSR::currentWiFi(){ - if (WiFi.status() == WL_CONNECTED) return WL_CONNECTED; - if (GSRWiFi.Working) return WL_IDLE_STATUS; // Make like it is relaxing doing nothing. - return WL_CONNECT_FAILED; -} - -void WatchyGSR::endWiFi(){ - GSRWiFi.Requested = false; - GSRWiFi.Working = false; - GSRWiFi.Results = false; - GSRWiFi.Index = 0; - setStatus(""); - WiFi.disconnect(); - WiFi.mode(WIFI_OFF); -} - -void WatchyGSR::WiFiStationDisconnected(WiFiEvent_t event, WiFiEventInfo_t info){ - GSRWiFi.Last = 0; -} - -String WatchyGSR::buildWiFiAPPage(){ - String S = wifiIndexA; - String T; - int I = 0; - - while (I < 10){ - T = wifiIndexB; - T.replace("$",String(char(65 + I))); - T.replace("#",String(char(48 + I))); - T.replace("?",APIDtoString(I)); - S += T; - - T = wifiIndexC; - T.replace("#",String(char(48 + I))); - T.replace("$",PASStoString(I)); - S += (T + (I < 9 ? "" : "")); - I++; - } - return S + wifiIndexD; -} - -void WatchyGSR::parseWiFiPageArg(String ARG, String DATA){ - uint8_t I = String(ARG.charAt(2)).toInt(); - String S = ARG.substring(0,2); - - if (S == "AP") strcpy(GSRWiFi.AP[I].APID, DATA.c_str()); - if (S == "PA") strcpy(GSRWiFi.AP[I].PASS, DATA.c_str()); -} - -String WatchyGSR::APIDtoString(uint8_t Index){ - String S = ""; - uint8_t I = 0; - while (GSRWiFi.AP[Index].APID[I] != 0 && I < 32) { S += char(GSRWiFi.AP[Index].APID[I]); I++; } - return S; -} - -String WatchyGSR::PASStoString(uint8_t Index){ - String S = ""; - uint8_t I = 0; - while (GSRWiFi.AP[Index].PASS[I] != 0 && I < 63) { S += char(GSRWiFi.AP[Index].PASS[I]); I++; } - return S; -} - -void WatchyGSR::initZeros(){ - String S = ""; - GuiMode = WATCHON; - ScreenOn = true; - VibeMode = 0; - WatchyStatus = ""; - WatchTime.TimeZone = ""; - Menu.Style = MENU_INNORMAL; - Menu.Item = 0; - Menu.SubItem = 0; - Menu.SubSubItem = 0; - NTPData.Pause = 0; - NTPData.Wait = 0; - Battery.Last = getBatteryVoltage() + 1; // Done for power spike after reboot from making the watch think it's charging. - Battery.UpCount = 0; - Battery.DownCount = 0; - ActiveMode = false; - OTATry = 0; - OTAEnd = false; - OTAUpdate = false; - OTATimer = millis(); - WatchyAPOn = false; - DoHaptic = false; - Steps.Reset=false; - Alarms_Active[0]=0; - Alarms_Active[1]=0; - Alarms_Active[2]=0; - Alarms_Active[3]=0; - Alarms_Times[0]=0; - Alarms_Times[1]=0; - Alarms_Times[2]=0; - Alarms_Times[3]=0; - Alarms_Playing[0]=0; - Alarms_Playing[1]=0; - Alarms_Playing[2]=0; - Alarms_Playing[3]=0; - Alarms_Repeats[0]=0; - Alarms_Repeats[1]=0; - Alarms_Repeats[2]=0; - Alarms_Repeats[3]=0; - GSRWiFi.Requested=false; - GSRWiFi.Working=false; - GSRWiFi.Results=false; - GSRWiFi.Index=0; - strcpy(GSRWiFi.AP[0].APID,S.c_str()); - strcpy(GSRWiFi.AP[0].PASS,S.c_str()); - strcpy(GSRWiFi.AP[1].APID,S.c_str()); - strcpy(GSRWiFi.AP[1].PASS,S.c_str()); - strcpy(GSRWiFi.AP[2].APID,S.c_str()); - strcpy(GSRWiFi.AP[2].PASS,S.c_str()); - strcpy(GSRWiFi.AP[3].APID,S.c_str()); - strcpy(GSRWiFi.AP[3].PASS,S.c_str()); - strcpy(GSRWiFi.AP[4].APID,S.c_str()); - strcpy(GSRWiFi.AP[4].PASS,S.c_str()); - strcpy(GSRWiFi.AP[5].APID,S.c_str()); - strcpy(GSRWiFi.AP[5].PASS,S.c_str()); - strcpy(GSRWiFi.AP[6].APID,S.c_str()); - strcpy(GSRWiFi.AP[6].PASS,S.c_str()); - strcpy(GSRWiFi.AP[7].APID,S.c_str()); - strcpy(GSRWiFi.AP[7].PASS,S.c_str()); - strcpy(GSRWiFi.AP[8].APID,S.c_str()); - strcpy(GSRWiFi.AP[8].PASS,S.c_str()); - strcpy(GSRWiFi.AP[9].APID,S.c_str()); - strcpy(GSRWiFi.AP[9].PASS,S.c_str()); - NTPData.TimeZone=true; - NTPData.UpdateUTC=true; - NTPData.State=1; - TimerUp.SetAt = WatchTime.UTC_RAW; - TimerUp.StopAt = TimerUp.SetAt; - TimerDown.MaxMins = 0; - TimerDown.MaxHours = 0; - TimerDown.Mins = 0; - TimerDown.Hours = 0; - TimerDown.MaxTones = 0; - TimerDown.Active = false; - AskForWiFi(); -} - -// Settings Storage & Retrieval here. - -String WatchyGSR::GetSettings(){ - unsigned char I[2048]; - unsigned char O[2048]; - int K = 0; - int J = 6; - uint8_t X, Y, W; - uint16_t V; - String S; - size_t L; - - // Retrieve the settings from the current state into a base64 string. - - I[0] = (Steps.Hour); - I[1] = (Steps.Minutes); - K = Options.TwentyFour ? 1 : 0; - K |= Options.LightMode ? 2 : 0; - K |= Options.Feedback ? 4 : 0; - K |= Options.Border ? 8 : 0; - K |= Options.Lefty ? 16 : 0; - K |= Options.Swapped ? 32 : 0; - K |= Options.Orientated ? 64 : 0; - I[2] = (K); V = (Options.MasterRepeats << 5); I[3] = (Options.Turbo | V); - - V = (TimerDown.MaxTones << 5); - I[4] = ((TimerDown.MaxHours) | V); - I[5] = (TimerDown.MaxMins); - - for (K = 0; K < 4; K++){ - V = (Alarms_Repeats[K] << 5); - I[J] = (Alarms_Hour[K] | V); J++; - I[J] = (Alarms_Minutes[K]); J++; - V = (Alarms_Active[K] & ALARM_NOTRIGGER); - I[J] = (V & 255); J++; - I[J] = ((V >> 8) & 255); J++; - } - - for (X = 0; X < 10; X++){ - S = APIDtoString(X); - if (S > "") { - W = S.length(); - I[J] = W; J++; - for (Y = 0; Y < W; Y++){ - I[J] = S.charAt(Y); J++; - } - S = PASStoString(X); - W = S.length(); - I[J] = W; J++; - for (Y = 0; Y < W; Y++){ - I[J] = S.charAt(Y); J++; - } - } - } - I[J] = 0; J++; - - mbedtls_base64_encode(&O[0], 2047, &L, &I[0], J); - - O[L]=0; - S = reinterpret_cast(O); - return S; -} - -void WatchyGSR::StoreSettings(String FromUser){ - unsigned char O[2048], E[2048]; - int K = 0; - int J = 0; - uint16_t V; - size_t L; - bool Ok; - uint8_t I, A, W; // For WiFi storage. - String S; - - J = FromUser.length(); for (K = 0; K < J; K++) E[K] = FromUser.charAt(K); - - mbedtls_base64_decode(&O[0], 2047, &L, &E[0], J); L--; // Take dead zero off end. - - J = 0; if (L > J) Steps.Hour = clamp(O[J],0,23); - J++; if (L > J) Steps.Minutes = clamp(O[J],0,59); - J++; - if (L > J) { - V = O[J]; - Options.TwentyFour = (V & 1) ? true : false; - Options.LightMode = (V & 2) ? true : false; - Options.Feedback = (V & 4) ? true : false; - Options.Border = (V & 8) ? true : false; - Options.Lefty = (V & 16) ? true : false; - Options.Swapped = (V & 32) ? true : false; - Options.Orientated = (V & 64) ? true : false; - } - J++; if (L > J){ - V = ((O[J] & 224) >> 5); - Options.MasterRepeats = V; - Options.Turbo = clamp((O[J] & 31),0,10); - } - J++; if (L > J){ - V = ((O[J] & 224) >> 5); - TimerDown.MaxTones = V; - TimerDown.MaxHours = clamp((O[J] & 31),0,23); - } - J++; if (L > J) TimerDown.MaxMins = clamp(O[J],0,59); - - for (K = 0; K < 4; K++){ - J++; if (L > J){ - V = ((O[J] & 224) >> 5); - Alarms_Repeats[K] = V; - Alarms_Hour[K] = clamp((O[J] & 31),0,23); - } - J++; if (L > J) Alarms_Minutes[K] = clamp(O[J],0,59); - J++; if (L > J + 1){ - V = ((O[J + 1] & 255) << 8); - Alarms_Active[K] = ((O[J] | V) & ALARM_NOTRIGGER); J++; - } - } - - S = ""; for (I = 0; I < 10; I++) { strcpy(GSRWiFi.AP[I].APID,S.c_str()); strcpy(GSRWiFi.AP[I].PASS,S.c_str()); } - - J++; A = 0; - while (L > J){ - Ok = false; - if (L > J){ // get APx - W = O[J]; J++; S = ""; - if (L > J + (W - 1)) { // Read APx. - for (I = 0; L > J && I < W; I++){ - S += String(char(O[J])); J++; - } - strcpy(GSRWiFi.AP[A].APID,S.c_str()); - Ok = true; - } - if (L > J){ // get APx - W = O[J]; J++; S = ""; - if (L > J + (W - 1)) { // Read PAx. - for (I = 0; L > J && I < W; I++){ - S += String(char(O[J])); J++; - } - strcpy(GSRWiFi.AP[A].PASS,S.c_str()); - Ok = true; - } - } - } - if (Ok) A++; - } - - OTAFail = millis() - 598000; -} - -// Turbo Mode! -void WatchyGSR::SetTurbo(){ - Turbo.On=true; - Turbo.Last=millis(); - LastButton=millis(); // Here for speed. -} - -bool WatchyGSR::InTurbo() { return (Turbo.On && millis() - Turbo.Last < (Options.Turbo * 1000)); } - -// Debugging here. - -void WatchyGSR::DBug(String Value){ - if (USEDEBUG){ - if (!SerialSetup){ - Serial.begin(115200); - SerialSetup=true; - } - Serial.println(Value); - } -} - -String WatchyGSR::ToHex(uint64_t Value){ - unsigned long long1 = (unsigned long)((Value & 0xFFFF0000) >> 16 ); - unsigned long long2 = (unsigned long)((Value & 0x0000FFFF)); - return String(long1, HEX) + String(long2, HEX); -}