Stub out RTC integration.
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bfc43443b4
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@ -18,5 +18,7 @@ lib_deps =
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me-no-dev/ESP Async WebServer@^1.2.3
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contrem/arduino-timer@^3.0.1
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kj7rrv/Telegraph@^1.0.0
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;etherkit/Etherkit Morse@^1.1.2
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jandelgado/JLed@^4.13.0
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adafruit/RTClib@^2.1.1
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adafruit/Adafruit BusIO@^1.14.3
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;jchristensen/DS3232RTC@^2.0.1
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@ -17,18 +17,22 @@
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#include <SPIFFS.h>
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#include <Preferences.h>
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#include <arduino-timer.h>
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#include <Telegraph.h>
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// #include <Telegraph.h>
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//#include <morse.h> //arduino morse
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//#include <Morse.h> //etherkit morse
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#include <jled.h> // jled
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#include "jled/morse.h" //jled
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//#include "morse_effect.h" // jled
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#include <Adafruit_BusIO_Register.h> // for DS3231
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#include <RTClib.h> // for DS3231
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//#include <DS3232RTC.h> //for DS3231
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// download zip from https://github.com/me-no-dev/ESPAsyncWebServer and install.
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#include <ESPAsyncWebServer.h>
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AsyncWebServer server(80);
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RTC_DS3231 rtc;
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// Read from config.h
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const char* ssid = WIFI_SSID;
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const char* password = WIFI_PASSWORD;
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@ -38,6 +42,7 @@ const char* PARAM_SEND = "inputSend";
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const char* PARAM_WPM = "inputWPM";
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const char* PARAM_MSG = "inputMsg";
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const char* PARAM_FLOAT = "inputFloat";
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const char* PARAM_TIME = "inputTimeUnix";
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// Global variables
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String yourInputString;
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@ -46,6 +51,7 @@ int yourInputWPM;
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int yourInputMsg;
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int yourInputMsg_old; // to save previous state and check changes
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float yourInputFloat;
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String yourInputTime; //to keep time
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// HTML web page to handle 3 input fields (inputString, inputSend, inputFloat)
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const char index_html[] PROGMEM = R"rawliteral(
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@ -80,10 +86,15 @@ const char index_html[] PROGMEM = R"rawliteral(
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WPM (current value %inputWPM%): <input type="number " name="inputWPM" value = %inputWPM%> (doesn't work yet)<br>
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Time Unix: <input type="text" name="inputTimeUnix" id="js_time_unix"><br>
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inputFloat (current value %inputFloat%): <input type="number " name="inputFloat" value = %inputFloat%><br>
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<input type="submit" value="Submit" onclick="submitMessage()">
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</form>
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<iframe style="display:none" name="hidden-form"></iframe>
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<script>
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document.getElementById("js_time_unix").value = Date.now();
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</script>
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</body></html>)rawliteral";
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// Auxiliary variables to store the current output state
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@ -91,7 +102,7 @@ String output26State = "off";
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String output27State = "off";
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// Assign output variables to GPIO pins
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const int output26 = 26;
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const int output26 = 32;//26 for LED; //32 for transmitter keyer
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const int output27 = 27;
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// Timers
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@ -106,16 +117,16 @@ bool toggle_led(void *) {
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}
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// Toggle GPIO pin (LED or relay)
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bool toggle_gpio_26(void *) {
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if(output26State == "off"){
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output26State = "on";
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digitalWrite(output26, HIGH);
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} else {
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output26State = "off";
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digitalWrite(output26, LOW);
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}
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return true; // keep timer active? true
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}
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// bool toggle_gpio_26(void *) {
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// if(output26State == "off"){
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// output26State = "on";
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// digitalWrite(output26, HIGH);
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// } else {
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// output26State = "off";
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// digitalWrite(output26, LOW);
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// }
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// return true; // keep timer active? true
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// }
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void notFound(AsyncWebServerRequest *request) {
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request->send(404, "text/plain", "Not found");
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@ -174,65 +185,65 @@ String processor(const String& var){
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return String();
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}
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// vvvvv Modify some functions from KB1OIQ's controller.
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// This section hasn't been tested on the hardware.
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// // vvvvv Modify some functions from KB1OIQ's controller.
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// // This section hasn't been tested on the hardware.
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//int dit_len = 60 ; //milliseconds; https://morsecode.world/international/timing.html
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// //int dit_len = 60 ; //milliseconds; https://morsecode.world/international/timing.html
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//================================================================================
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// stop_26(): set GPIO 26 to LOW. Used for dot(), dash().
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//================================================================================
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bool stop_26(void *){
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output26State = "off";
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digitalWrite(output26, LOW);
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return false; // keep timer active? true
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}
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// //================================================================================
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// // stop_26(): set GPIO 26 to LOW. Used for dot(), dash().
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// //================================================================================
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// bool stop_26(void *){
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// output26State = "off";
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// digitalWrite(output26, LOW);
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// return false; // keep timer active? true
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// }
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//================================================================================
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// dit(): transmit a single dit
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//================================================================================
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void dit(int dit_len = 1000) {
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output26State = "on";
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digitalWrite(output26, HIGH);
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timer.in(dit_len, stop_26);
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}
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// //================================================================================
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// // dit(): transmit a single dit
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// //================================================================================
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// void dit(int dit_len = 1000) {
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// output26State = "on";
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// digitalWrite(output26, HIGH);
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// timer.in(dit_len, stop_26);
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// }
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//================================================================================
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// dah(): transmit a single dah
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//================================================================================
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void dah(int dit_len = 1000) {
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output26State = "on";
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digitalWrite(output26, HIGH);
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timer.in(dit_len * 3, stop_26);
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}
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// //================================================================================
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// // dah(): transmit a single dah
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// //================================================================================
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// void dah(int dit_len = 1000) {
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// output26State = "on";
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// digitalWrite(output26, HIGH);
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// timer.in(dit_len * 3, stop_26);
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// }
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//================================================================================
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// char_space()): transmit a character space
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//================================================================================
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// A function that does nothing except (hopefully) block the timer.
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bool empty(void *) {
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return false;
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}
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// //================================================================================
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// // char_space()): transmit a character space
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// //================================================================================
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// // A function that does nothing except (hopefully) block the timer.
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// bool empty(void *) {
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// return false;
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// }
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void char_space(int dit_len = 1000) {
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// void char_space(int dit_len = 1000) {
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timer.in(dit_len, empty);
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}
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// timer.in(dit_len, empty);
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// }
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void k(){
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Serial.println("K");
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dah();
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char_space();
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dit();
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char_space();
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dah();
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}
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// void k(){
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// Serial.println("K");
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// dah();
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// char_space();
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// dit();
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// char_space();
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// dah();
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// }
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// ^^^^
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// // ^^^^
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//telegraph
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//Telegraph telegraph(LED_BUILTIN, 10, HIGH);
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Telegraph telegraph26(output26, 10, HIGH);
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// //telegraph
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// //Telegraph telegraph(LED_BUILTIN, 10, HIGH);
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// Telegraph telegraph26(output26, 10, HIGH);
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//arduinomorse
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//LEDMorseSender sender(LED_BUILTIN);
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@ -265,7 +276,7 @@ class MorseEffect : public jled::BrightnessEvaluator {
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float wpm = 10;
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float ms_per_dit = 1000 * (60 / (50 * wpm));
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int word_space_ms = ms_per_dit * 7;
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// Hardcoding these for now, will come back and make it more flexible.
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// Hardcoding messages and WPM for now, will come back and make it more flexible.
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MorseEffect morseEffectCQ("CQ CQ CQ DE W1CDN", ms_per_dit);
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MorseEffect morseEffectMOE("MOE", ms_per_dit);
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MorseEffect morseEffectMOI("MOI", ms_per_dit);
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@ -287,12 +298,48 @@ auto morseMO5 =
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JLed(output26).UserFunc(&morseEffectMO5).DelayAfter(word_space_ms).Forever();
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auto morseToSend = morseCQ; // set this up to overwrite later
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// format and print a time_t value
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// void printTime(time_t t)
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// {
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// char buf[25];
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// char m[4]; // temporary storage for month string (DateStrings.cpp uses shared buffer)
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// strcpy(m, monthShortStr(month(t)));
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// sprintf(buf, "%.2d:%.2d:%.2d %s %.2d %s %d",
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// hour(t), minute(t), second(t), dayShortStr(weekday(t)), day(t), m, year(t));
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// Serial.println(buf);
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// }
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//================================================================================
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// setup(): stuff that only gets done once, after power up (KB1OIQ's description)
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//================================================================================
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void setup() {
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Serial.begin(115200);
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// https://github.com/JChristensen/DS3232RTC/blob/master/examples/TimeRTC/TimeRTC.ino
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// rtc.begin();
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// setSyncProvider(rtc.get); // the function to get the time from the RTC
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// if(timeStatus() != timeSet)
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// Serial.println("Unable to sync with the RTC");
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// else
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// Serial.println("RTC has set the system time");
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if (! rtc.begin()) {
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Serial.println("Couldn't find RTC");
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Serial.flush();
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while (1) delay(10);
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}
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if (rtc.lostPower()) {
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Serial.println("RTC lost power, let's set the time!");
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// When time needs to be set on a new device, or after a power loss, the
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// following line sets the RTC to the date & time this sketch was compiled
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rtc.adjust(DateTime(__DATE__, __TIME__));
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// This line sets the RTC with an explicit date & time, for example to set
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// January 21, 2014 at 3am you would call:
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//rtc.adjust(DateTime(2023, 9, 2, 17, 32, 0));
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}
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// Timer example, blink main LED
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pinMode(LED_BUILTIN, OUTPUT); // set LED pin to OUTPUT
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// call the toggle_led function every 10000 millis (10 second)
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@ -407,6 +454,12 @@ void setup() {
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yourInputMsg_old = yourInputMsg;
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yourInputMsg = inputMessage.toInt();
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}
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// GET inputTimeUnix value on <ESP_IP>/get?inputTimeUnix=<inputMessage>
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if (request->hasParam(PARAM_TIME)) {
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inputMessage = request->getParam(PARAM_TIME)->value();
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yourInputTime = inputMessage;
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Serial.println(yourInputTime);
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}
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// GET inputFloat value on <ESP_IP>/get?inputFloat=<inputMessage>
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if (request->hasParam(PARAM_FLOAT)) {
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inputMessage = request->getParam(PARAM_FLOAT)->value();
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@ -440,6 +493,23 @@ void loop() {
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time_until_start.tick();
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timer.tick();
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DateTime now = rtc.now();
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// Serial.print(now.year(), DEC);
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// Serial.print('/');
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// Serial.print(now.month(), DEC);
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// Serial.print('/');
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// Serial.print(now.day(), DEC);
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// Serial.print(" (");
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// Serial.print(now.dayOfTheWeek());
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// Serial.print(") ");
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// Serial.print(now.hour(), DEC);
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// Serial.print(':');
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// Serial.print(now.minute(), DEC);
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// Serial.print(':');
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// Serial.print(now.second(), DEC);
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// Serial.println();
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//arduinomorse
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//sender.continueSending();
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