233 lines
5.0 KiB
C++
Executable File
233 lines
5.0 KiB
C++
Executable File
// Morse Code sending library
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#include <morse.h>
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// MorseSender
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int MorseSender::copyTimings(
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morseTiming_t *rawOut,
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morseBitmask_t definition)
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{
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int t = 0;
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boolean foundSentinel = false;
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for(morseBitmask_t mask = MORSE_BITMASK_HIGH_BIT;
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mask > 0; mask = mask >> 1)
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{
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boolean isDah = (mask & definition) > 0;
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if(!foundSentinel)
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{
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if (isDah) { foundSentinel = true; }
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continue;
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}
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rawOut[2*t] = isDah ? DAH : DIT;
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rawOut[2*t + 1] = DIT;
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t++;
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}
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return t;
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}
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unsigned int MorseSender::fillTimings(char c)
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{
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int t = 0;
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unsigned int start = 0;
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if (c >= 'a' && c <= 'z')
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{
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t = copyTimings(timingBuffer, MORSE_LETTERS[c-'a']);
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}
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else if (c >= '0' && c <= '9')
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{
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int n = c - '0';
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boolean ditsFirst = (n <= 5);
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if (!ditsFirst)
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{
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n -= 5;
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}
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while(t < 5)
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{
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timingBuffer[2*t] = ((t < n) == ditsFirst) ? DIT : DAH;
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timingBuffer[2*t + 1] = DIT;
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t++;
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}
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}
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else
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{
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int s = 0;
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while(MORSE_PUNCT_ETC[s].c != END)
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{
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if(MORSE_PUNCT_ETC[s].c == c)
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{
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t = copyTimings(timingBuffer,
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MORSE_PUNCT_ETC[s].timing);
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break;
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}
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s++;
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}
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if (MORSE_PUNCT_ETC[s].c == END)
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{
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start = t = 1; // start on a space
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}
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}
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timingBuffer[2*t - 1] = DAH;
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timingBuffer[2*t] = END;
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/*
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Serial.print("Refilled timing buffer for '");
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Serial.print(c);
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Serial.print("': ");
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int i = start;
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while(timingBuffer[i] != END)
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{
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Serial.print((int)timingBuffer[i]);
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Serial.print(", ");
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i++;
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}
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Serial.println("END");
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*/
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return start;
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}
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// see note in header about pure-virtual-ness
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void MorseSender::setOn() {};
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void MorseSender::setOff() {};
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// noop defaults
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void MorseSender::setReady() {};
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void MorseSender::setComplete() {};
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MorseSender::MorseSender(unsigned int outputPin, float wpm) :
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pin(outputPin)
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{
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setWPM(wpm);
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}
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void MorseSender::setup() { pinMode(pin, OUTPUT); }
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void MorseSender::setWPM(float wpm)
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{
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setSpeed((morseTiming_t)(1000.0*60.0/(max(1.0f, wpm)*DITS_PER_WORD)));
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}
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void MorseSender::setSpeed(morseTiming_t duration)
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{
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DIT = max(duration, (morseTiming_t) 1);
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DAH = 3*DIT;
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}
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void MorseSender::setMessage(const String newMessage)
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{
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message = newMessage;
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// Force startSending() before continueSending().
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messageIndex = message.length();
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// If a different message was in progress, make sure it stops cleanly.
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if (timingIndex % 2 == 0) {
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setOff();
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}
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}
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void MorseSender::sendBlocking()
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{
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//Serial.println("Sending blocking: ");
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//Serial.println(message);
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startSending();
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while(continueSending());
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}
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void MorseSender::startSending()
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{
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messageIndex = 0;
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if (message.length() == 0) { return; }
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timingIndex = fillTimings(message[0]);
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setReady();
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if (timingIndex % 2 == 0) {
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setOn();
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//Serial.print("Starting with on, duration=");
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} else {
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//Serial.print("Starting with off, duration=");
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}
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lastChangedMillis = millis();
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//Serial.println((int)timingBuffer[timingIndex]);
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}
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boolean MorseSender::continueSending()
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{
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if(messageIndex >= message.length()) { return false; }
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unsigned long elapsedMillis = millis() - lastChangedMillis;
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if (elapsedMillis < timingBuffer[timingIndex]) { return true; }
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timingIndex++;
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if (timingBuffer[timingIndex] == END)
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{
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messageIndex++;
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if(messageIndex >= message.length()) {
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setOff();
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setComplete();
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return false;
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}
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timingIndex = fillTimings(message[messageIndex]);
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}
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lastChangedMillis += elapsedMillis;
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//Serial.print("Next is ");
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if (timingIndex % 2 == 0) {
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//Serial.print("(on) ");
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setOn();
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} else {
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//Serial.print("(off) ");
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setOff();
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}
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//Serial.println((int)timingBuffer[timingIndex]);
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return true;
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}
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void *MorseSender::operator new(size_t size) { return malloc(size); }
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void MorseSender::operator delete(void* ptr) { if (ptr) free(ptr); }
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// SpeakerMorseSender
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// void SpeakerMorseSender::setOn() { tone(pin, frequency); }
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// void SpeakerMorseSender::setOff() {
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// if (carrFrequency == CARRIER_FREQUENCY_NONE) {
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// noTone(pin);
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// } else {
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// tone(pin, carrFrequency);
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// }
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// }
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// void SpeakerMorseSender::setReady() { setOff(); }
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// void SpeakerMorseSender::setComplete() { noTone(pin); }
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// SpeakerMorseSender::SpeakerMorseSender(
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// int outputPin,
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// unsigned int toneFrequency,
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// unsigned int carrierFrequency,
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// float wpm)
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// : MorseSender(outputPin, wpm),
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// frequency(toneFrequency),
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// carrFrequency(carrierFrequency) {};
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// LEDMorseSender
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void LEDMorseSender::setOn() { digitalWrite(pin, activeLow ? LOW : HIGH); }
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void LEDMorseSender::setOff() { digitalWrite(pin, activeLow ? HIGH : LOW); }
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LEDMorseSender::LEDMorseSender(int outputPin, bool activeLow, float wpm)
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: MorseSender(outputPin, wpm), activeLow(activeLow) {};
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LEDMorseSender::LEDMorseSender(int outputPin, float wpm)
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: MorseSender(outputPin, wpm), activeLow(false) {};
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// PWMMorseSender
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void PWMMorseSender::setOn() { analogWrite(pin, brightness); }
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void PWMMorseSender::setOff() { analogWrite(pin, 0); }
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void PWMMorseSender::setBrightness(byte bright) {
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brightness = bright;
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}
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PWMMorseSender::PWMMorseSender(
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int outputPin,
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float wpm,
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byte bright)
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: MorseSender(outputPin, wpm), brightness(bright) {};
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