2023-09-15 16:35:54 -05:00
4 changed files with 511 additions and 8 deletions
--- a/vulpes/platformio.ini
+++ b/vulpes/platformio.ini
@ -10,9 +10,6 @@
 [env:esp32doit-devkit-v1]
 platform = espressif32
 ;build_flags =
 ;	-std=c++11
 ;	-std=gnu++11
 board = esp32doit-devkit-v1
 framework = arduino
 upload_speed = 921600
@ -23,10 +20,7 @@ lib_deps =
 	me-no-dev/AsyncTCP@^1.1.1
 	me-no-dev/ESP Async WebServer@^1.2.3
 	contrem/arduino-timer@^3.0.1
 	;kj7rrv/Telegraph@^1.0.0
 	jandelgado/JLed@^4.13.1
-	;adafruit/RTClib@^2.1.1
+	https://github.com/adafruit/RTClib.git
 	https://github.com/adafruit/RTClib.git ; >=2.1.2
 	adafruit/Adafruit BusIO@^1.14.3
-	;jchristensen/DS3232RTC@^2.0.1
+	erropix/ESP32 AnalogWrite@^0.2
--- a/vulpes/src/main.cpp
+++ b/vulpes/src/main.cpp
@ -17,6 +17,7 @@
 #include <SPIFFS.h>
 #include <Preferences.h>
 #include <arduino-timer.h>
 #include "morse.h"
 #include <jled.h> // jled
 #include "jled/morse.h" //jled
 #include <Adafruit_BusIO_Register.h> // for DS3231
--- a/vulpes/src/morse.cpp
+++ b/vulpes/src/morse.cpp
@ -0,0 +1,232 @@
 // Morse Code sending library
 #include <morse.h>
 // MorseSender
 int MorseSender::copyTimings(
 	morseTiming_t *rawOut,
 	morseBitmask_t definition)
 {
 	int t = 0;
 	boolean foundSentinel = false;
 	for(morseBitmask_t mask = MORSE_BITMASK_HIGH_BIT;
 		mask > 0; mask = mask >> 1)
 	{
 		boolean isDah = (mask & definition) > 0;
 		if(!foundSentinel)
 		{
 			if (isDah) { foundSentinel = true; }
 			continue;
 		}
 		rawOut[2*t] = isDah ? DAH : DIT;
 		rawOut[2*t + 1] = DIT;
 		t++;
 	}
 	return t;
 }
 unsigned int MorseSender::fillTimings(char c)
 {
 	int t = 0;
 	unsigned int start = 0;
 	if (c >= 'a' && c <= 'z')
 	{
 		t = copyTimings(timingBuffer, MORSE_LETTERS[c-'a']);
 	}
 	else if (c >= '0' && c <= '9')
 	{
 		int n = c - '0';
 		boolean ditsFirst = (n <= 5);
 		if (!ditsFirst)
 		{
 			n -= 5;
 		}
 		while(t < 5)
 		{
 			timingBuffer[2*t] = ((t < n) == ditsFirst) ? DIT : DAH;
 			timingBuffer[2*t + 1] = DIT;
 			t++;
 		}
 	}
 	else
 	{
 		int s = 0;
 		while(MORSE_PUNCT_ETC[s].c != END)
 		{
 			if(MORSE_PUNCT_ETC[s].c == c)
 			{
 				t = copyTimings(timingBuffer,
 					MORSE_PUNCT_ETC[s].timing);
 				break;
 			}
 			s++;
 		}
 		if (MORSE_PUNCT_ETC[s].c == END)
 		{
 			start = t = 1; // start on a space
 		}
 	}
 	timingBuffer[2*t - 1] = DAH;
 	timingBuffer[2*t] = END;
 	/*
 	Serial.print("Refilled timing buffer for '");
 	Serial.print(c);
 	Serial.print("': ");
 	int i = start;
 	while(timingBuffer[i] != END)
 	{
 		Serial.print((int)timingBuffer[i]);
 		Serial.print(", ");
 		i++;
 	}
 	Serial.println("END");
 	*/
 	return start;
 }
 // see note in header about pure-virtual-ness
 void MorseSender::setOn() {};
 void MorseSender::setOff() {};
 // noop defaults
 void MorseSender::setReady() {};
 void MorseSender::setComplete() {};
 MorseSender::MorseSender(unsigned int outputPin, float wpm) :
 	pin(outputPin)
 {
 	setWPM(wpm);
 }
 void MorseSender::setup() { pinMode(pin, OUTPUT); }
 void MorseSender::setWPM(float wpm)
 {
 	setSpeed((morseTiming_t)(1000.0*60.0/(max(1.0f, wpm)*DITS_PER_WORD)));
 }
 void MorseSender::setSpeed(morseTiming_t duration)
 {
 	DIT = max(duration, (morseTiming_t) 1);
 	DAH = 3*DIT;
 }
 void MorseSender::setMessage(const String newMessage)
 {
 	message = newMessage;
 	// Force startSending() before continueSending().
 	messageIndex = message.length();
 	// If a different message was in progress, make sure it stops cleanly.
 	if (timingIndex % 2 == 0) {
 		setOff();
 	}
 }
 void MorseSender::sendBlocking()
 {
 	//Serial.println("Sending blocking: ");
 	//Serial.println(message);
 	startSending();
 	while(continueSending());
 }
 void MorseSender::startSending()
 {
 	messageIndex = 0;
 	if (message.length() == 0) { return; }
 	timingIndex = fillTimings(message[0]);
 	setReady();
 	if (timingIndex % 2 == 0) {
 		setOn();
 		//Serial.print("Starting with on, duration=");
 	} else {
 		//Serial.print("Starting with off, duration=");
 	}
 	lastChangedMillis = millis();
 	//Serial.println((int)timingBuffer[timingIndex]);
 }
 boolean MorseSender::continueSending()
 {
 	if(messageIndex >= message.length()) { return false; }
 	unsigned long elapsedMillis = millis() - lastChangedMillis;
 	if (elapsedMillis < timingBuffer[timingIndex]) { return true; }
 	timingIndex++;
 	if (timingBuffer[timingIndex] == END)
 	{
 		messageIndex++;
 		if(messageIndex >= message.length()) {
 			setOff();
 			setComplete();
 			return false;
 		}
 		timingIndex = fillTimings(message[messageIndex]);
 	}
 	lastChangedMillis += elapsedMillis;
 	//Serial.print("Next is       ");
 	if (timingIndex % 2 == 0) {
 		//Serial.print("(on) ");
 		setOn();
 	} else {
 		//Serial.print("(off) ");
 		setOff();
 	}
 	//Serial.println((int)timingBuffer[timingIndex]);
 	return true;
 }
 void *MorseSender::operator new(size_t size) { return malloc(size); }
 void MorseSender::operator delete(void* ptr) { if (ptr) free(ptr); }
 // SpeakerMorseSender
 // void SpeakerMorseSender::setOn() { tone(pin, frequency); }
 // void SpeakerMorseSender::setOff() {
 // 	if (carrFrequency == CARRIER_FREQUENCY_NONE) {
 // 		noTone(pin);
 // 	} else {
 // 		tone(pin, carrFrequency);
 // 	}
 // }
 // void SpeakerMorseSender::setReady() { setOff(); }
 // void SpeakerMorseSender::setComplete() { noTone(pin); }
 // SpeakerMorseSender::SpeakerMorseSender(
 // 	int outputPin,
 // 	unsigned int toneFrequency,
 // 	unsigned int carrierFrequency,
 // 	float wpm)
 // 	: MorseSender(outputPin, wpm),
 // 	frequency(toneFrequency),
 // 	carrFrequency(carrierFrequency) {};
 // LEDMorseSender
 void LEDMorseSender::setOn() { digitalWrite(pin, activeLow ? LOW : HIGH); }
 void LEDMorseSender::setOff() { digitalWrite(pin, activeLow ? HIGH : LOW); }
 LEDMorseSender::LEDMorseSender(int outputPin, bool activeLow, float wpm)
 	: MorseSender(outputPin, wpm), activeLow(activeLow) {};
 LEDMorseSender::LEDMorseSender(int outputPin, float wpm)
 	: MorseSender(outputPin, wpm), activeLow(false) {};
 // PWMMorseSender
 void PWMMorseSender::setOn() { analogWrite(pin, brightness); }
 void PWMMorseSender::setOff() { analogWrite(pin, 0); }
 void PWMMorseSender::setBrightness(byte bright) {
 	brightness = bright;
 }
 PWMMorseSender::PWMMorseSender(
 		int outputPin,
 		float wpm,
 		byte bright)
 	: MorseSender(outputPin, wpm), brightness(bright) {};
--- a/vulpes/src/morse.h
+++ b/vulpes/src/morse.h
@ -0,0 +1,276 @@
 #pragma once
 /**
 * Generate and send Morse Code on an LED or a speaker. Allow sending
 * in a non-blocking manner (by calling a 'continue sending' method
 * every so often to turn an LED on/off, or to call tone/noTone appropriately).
 *
 * All input should be lowercase. Prosigns (SK, KN, etc) have special
 * character values #defined.
 *
 * See also:
 * Morse decoder (using binary tree):
 * http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1289074596/15
 * Generator (on playground):
 * http://www.arduino.cc/playground/Code/Morse
 */
 // for malloc and free, for the new/delete operators
 #include <stdlib.h>
 #include <analogWrite.h>
 // Arduino language types
 #if defined(ARDUINO) && ARDUINO >= 100
 #include "Arduino.h"
 #else
 #include "WProgram.h"
 #endif
 #define WPM_DEFAULT	12.0
 // PARIS WPM measurement: 50; CODEX WPM measurement: 60 (Wikipedia:Morse_code)
 #define DITS_PER_WORD	50
 // Pass to SpeakerMorseSender as carrierFrequency to suppress the carrier.
 #define CARRIER_FREQUENCY_NONE	0
 // Bitmasks are 1 for dah and 0 for dit, in left-to-right order;
 //	the sequence proper begins after the first 1 (a sentinel).
 //	Credit for this scheme to Mark VandeWettering K6HX ( brainwagon.org ).
 typedef unsigned int             morseTiming_t;
 typedef unsigned char	morseBitmask_t; // see also MAX_TIMINGS
 #define MORSE_BITMASK_HIGH_BIT	B10000000
 // sentinel
 #define END             0
 // the most timing numbers any unit will need; ex: k = on,off,on,off,on,end = 5
 #define MAX_TIMINGS     15
 // Punctuation and Prosigns
 #define PROSIGN_SK	'S'
 #define PROSIGN_KN	'K'
 #define PROSIGN_BT	'B'
 typedef struct {
 	char c;
 	morseBitmask_t timing;
 } specialTiming;
 const specialTiming MORSE_PUNCT_ETC[] = {
 	{'.',		B1010101},
 	{'?',		B1001100},
 	{'/',		B110010},
 	{PROSIGN_SK,	B1000101},
 	{PROSIGN_KN,	B110110},
 	{PROSIGN_BT,	B110001},
 	{END,		B1},
 };
 // Morse Code (explicit declaration of letter timings)
 const morseBitmask_t MORSE_LETTERS[26] = {
 	/* a */ B101,
 	/* b */ B11000,
 	/* c */ B11010,
 	/* d */ B1100,
 	/* e */ B10,
 	/* f */ B10010,
 	/* g */ B1110,
 	/* h */ B10000,
 	/* i */ B100,
 	/* j */ B10111,
 	/* k */ B1101,
 	/* l */ B10100,
 	/* m */ B111,
 	/* n */ B110,
 	/* o */ B1111,
 	/* p */ B10110,
 	/* q */ B11101,
 	/* r */ B1010,
 	/* s */ B1000,
 	/* t */ B11,
 	/* u */ B1001,
 	/* v */ B10001,
 	/* w */ B1011,
 	/* x */ B11001,
 	/* y */ B11011,
 	/* z */ B11100,
 };
 /**
 * Define the logic of converting characters to on/off timing,
 * and encapsulate the state of one sending-in-progress Morse message.
 *
 * Subclasses define setOn and setOff for (for example) LED and speaker output.
 */
 class MorseSender {
 protected:
 	const unsigned int pin;
 	// The setOn and setOff methods would be pure virtual,
 	// but that has compiler issues.
 	// See: http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1167672075 .
 	/**
 	 * Called to set put the output in 'on' state, during a dit or dah.
 	 */
 	virtual void setOn();
 	virtual void setOff();
 	/**
 	 * Called before sending a message. Used for example to enable a
 	 * carrier. (Noop in the base class.)
 	 */
 	virtual void setReady();
 	virtual void setComplete();
 private:
 	morseTiming_t DIT, DAH;
 	String message;
 	// on,off,...,wait,0 list, millis
 	morseTiming_t timingBuffer[MAX_TIMINGS+1];
 	// index of the character currently being sent
 	unsigned int messageIndex;
 	// timing unit currently being sent
 	unsigned int timingIndex;
 	// when this timing unit was started
 	unsigned long lastChangedMillis;
 	/**
 	 * Copy definition timings (on only) to raw timings (on/off).
 	 * @return the number of 'on' timings copied
 	 */
 	int copyTimings(morseTiming_t *rawOut,
 		morseBitmask_t definition);
 	/**
 	 * Fill a buffer with on,off,..,END timings (millis)
 	 * @return the index at which to start within the new timing sequence
 	 */
 	unsigned int fillTimings(char c);
 public:
 	/**
 	 * Create a sender which will output to the given pin.
 	 */
 	MorseSender(unsigned int outputPin, float wpm=WPM_DEFAULT);
 	/**
 	 * To be called during the Arduino setup(); set the pin as OUTPUT.
 	 */
 	void setup();
 	/**
 	 * Set the words per minute (based on PARIS timing).
 	 */
 	void setWPM(float wpm);
 	/**
 	 * Set the duration, in milliseconds, of a DIT.
 	 */
 	void setSpeed(morseTiming_t duration);
 	/**
 	 * Set the message to be sent.
 	 * This halts any sending in progress.
 	 */
 	void setMessage(const String newMessage);
 	/**
 	 * Send the entirety of the current message before returning. See the "simple"
 	 * example, which uses sendBlocking to send one message.
 	 */
 	void sendBlocking();
 	/**
 	 * Prepare to send and begin sending the current message. After calling this,
 	 * call continueSending repeatedly until it returns false to finish sending
 	 * the message. See the "speeds" example, which calls startSending and
 	 * continueSending on two different senders.
 	 */
 	void startSending();
 	/**
 	 * Switch outputs on and off (and refill the internal timing buffer)
 	 * as necessary to continue with the sending of the current message.
 	 * This should be called every few milliseconds (at a significantly
 	 * smaller interval than a DIT) to produce a legible fist.
 	 *
 	 * @see startSending, which must be called first
 	 * @return false if sending is complete, otherwise true (keep sending)
 	 */
 	boolean continueSending();
 	void *operator new(size_t size);
 	void operator delete(void* ptr);
 };
 /**
 * Adapt Morse sending to use the Arduino language tone() and noTone()
 * functions, for use with a speaker.
 *
 * If a carrierFrequency is given, instead of calling noTone, call tone
 * with a low frequency. This is useful ex. for maintaining radio links.
 */
 class SpeakerMorseSender: public MorseSender {
 	private:
 		unsigned int frequency;
 		unsigned int carrFrequency;
 	protected:
 		virtual void setOn();
 		virtual void setOff();
 		virtual void setReady();
 		virtual void setComplete();
 	public:
 		// concert A = 440
 		// middle C = 261.626; higher octaves = 523.251, 1046.502
 		SpeakerMorseSender(
 			int outputPin,
 			unsigned int toneFrequency=1046,
 			unsigned int carrierFrequency=CARRIER_FREQUENCY_NONE,
 			float wpm=WPM_DEFAULT);
 };
 /**
 * Sends Morse on a digital output pin.
 */
 class LEDMorseSender: public MorseSender {
 	private:
 		bool activeLow;
 	protected:
 		virtual void setOn();
 		virtual void setOff();
 	public:
 		/**
 		 * Creates a LED Morse code sender with the given GPIO pin.  The optional
 		 * boolean activeLow indicates LED is ON with digital LOW value.
 		 * @param outputPin GPIO pin number
 		 * @param activeLow set to true to indicate the LED ON with digital LOW value.  default: false
 		 * @param wpm words per minute, default: WPM_DEFAULT
 		 */
 		LEDMorseSender(int outputPin, bool activeLow = false, float wpm=WPM_DEFAULT);
 		/**
 		 * Creates a LED Morse code sender with the given GPIO pin.  This constructor is for backward compability.
 		 * @param outputPin GPIO pin number
 		 * @param wpm words per minute
 		 */
 		LEDMorseSender(int outputPin, float wpm);
 };
 /**
 * Sends Morse on an analog output pin (using PWM). The brightness value is
 * between 0 and 255 and is passed directly to analogWrite.
 */
 class PWMMorseSender: public MorseSender {
 	private:
 		byte brightness;
 	protected:
 		virtual void setOn();
 		virtual void setOff();
 	public:
 		PWMMorseSender(int outputPin, float wpm=WPM_DEFAULT, byte brightness=255);
 		void setBrightness(byte brightness);
 };