Merge pull request 'Use arduinomorse instead of Jled' (#38) from arduinomorse into program-cycle
Reviewed-on: #38
This commit is contained in:
commit
a93498ac84
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@ -10,9 +10,6 @@
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[env:esp32doit-devkit-v1]
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platform = espressif32
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;build_flags =
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; -std=c++11
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; -std=gnu++11
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board = esp32doit-devkit-v1
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framework = arduino
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upload_speed = 921600
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@ -23,10 +20,7 @@ lib_deps =
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me-no-dev/AsyncTCP@^1.1.1
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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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jandelgado/JLed@^4.13.1
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;adafruit/RTClib@^2.1.1
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https://github.com/adafruit/RTClib.git ; >=2.1.2
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https://github.com/adafruit/RTClib.git
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adafruit/Adafruit BusIO@^1.14.3
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;jchristensen/DS3232RTC@^2.0.1
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erropix/ESP32 AnalogWrite@^0.2
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@ -1,17 +0,0 @@
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# JLed morse example
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This examples demonstrates an efficient method to generate morse code on
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an micro controller like the Arduino.
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The morse example uses the morse alphabet encoded in a binary tree to
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generate morse code using a JLed user defined brightness class. The text
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to be morsed is transformed into morse code and then transformed into a
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sequence of `1` and `0` which are written out to a GPIO controlling a LED or
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a sound generator.
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![morse example](../../doc/morse.jpg)
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## Author
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Jan Delgado
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@ -1,53 +0,0 @@
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// Copyright (c) 2019 Jan Delgado <jdelgado[at]gmx.net>
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// https://github.com/jandelgado/jled
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#ifndef EXAMPLES_MORSE_BITSET_H_
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#define EXAMPLES_MORSE_BITSET_H_
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// a simple bit set with capacity of N bits, just enough for the morse demo
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class Bitset {
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private:
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size_t n_;
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uint8_t* bits_;
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protected:
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// returns num bytes needed to store n bits.
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static constexpr size_t num_bytes(size_t n) {
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return n > 0 ? ((n - 1) >> 3) + 1 : 0;
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}
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public:
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Bitset() : Bitset(0) {}
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Bitset(const Bitset& b) : Bitset() { *this = b; }
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explicit Bitset(size_t n) : n_(n), bits_{new uint8_t[num_bytes(n)]} {
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memset(bits_, 0, num_bytes(n_));
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}
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Bitset& operator=(const Bitset& b) {
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if (&b == this) return *this;
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const auto size_new = num_bytes(b.n_);
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if (num_bytes(n_) != size_new) {
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delete[] bits_;
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bits_ = new uint8_t[size_new];
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n_ = b.n_;
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}
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memcpy(bits_, b.bits_, size_new);
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return *this;
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}
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virtual ~Bitset() {
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delete[] bits_;
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bits_ = nullptr;
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}
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void set(size_t i, bool val) {
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if (val)
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bits_[i >> 3] |= (1 << (i & 7));
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else
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bits_[i >> 3] &= ~(1 << (i & 7));
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}
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bool test(size_t i) const { return (bits_[i >> 3] & (1 << (i & 7))) != 0; }
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size_t size() const { return n_; }
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};
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#endif // EXAMPLES_MORSE_BITSET_H_
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@ -1,121 +0,0 @@
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// Copyright (c) 2019 Jan Delgado <jdelgado[at]gmx.net>
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// https://github.com/jandelgado/jled
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#include <Arduino.h>
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#include <inttypes.h>
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#include <stddef.h>
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#include "bitset.h" // NOLINT
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#ifndef EXAMPLES_MORSE_MORSE_H_
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#define EXAMPLES_MORSE_MORSE_H_
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// The Morse class converts a text sequence into a bit sequence representing
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// a morse code sequence.
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class Morse {
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// pre-ordered tree of morse codes. Bit 1 = 'dah', 0 = 'dit'.
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// Position in string corresponds to position in binary tree starting w/ 1
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// see https://www.pocketmagic.net/morse-encoder/ for info on encoding
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static constexpr auto LATIN =
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"*ETIANMSURWDKGOHVF*L*PJBXCYZQ**54*3***2*******16*******7***8*90";
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static constexpr auto DURATION_DIT = 1;
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static constexpr auto DURATION_DAH = 3 * DURATION_DIT;
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static constexpr auto DURATION_PAUSE_CHAR = DURATION_DAH;
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static constexpr auto DURATION_PAUSE_WORD = 7 * DURATION_DIT;
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protected:
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char upper(char c) const { return c >= 'a' && c <= 'z' ? c - 32 : c; }
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bool isspace(char c) const { return c == ' '; }
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// returns position of char in morse tree. Count starts with 1, i.e.
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// E=2, T=3, etc.
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size_t treepos(char c) const {
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auto i = 1u;
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while (LATIN[i++] != c) {
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}
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return i;
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}
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// returns uint16_t with size of morse sequence (dit's and dah's) in MSB
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// and the morse sequence in the LSB
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uint16_t pos_to_morse_code(int code) const {
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uint8_t res = 0;
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uint8_t size = 0;
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while (code > 1) {
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size++;
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res <<= 1;
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res |= (code & 1);
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code >>= 1;
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}
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return res | (size << 8);
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}
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template <typename F>
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uint16_t iterate_sequence(const char* p, F f) const {
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// call f(count,val) num times, incrementing count each time
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// and returning num afterwards.
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auto set = [](int num, int count, bool val, F f) -> int {
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for (auto i = 0; i < num; i++) f(count + i, val);
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return num;
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};
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auto bitcount = 0;
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while (*p) {
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const auto c = upper(*p++);
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if (isspace(c)) { // space not part of alphabet, treat separately
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bitcount += set(DURATION_PAUSE_WORD, bitcount, false, f);
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continue;
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}
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const auto morse_code = pos_to_morse_code(treepos(upper(c)));
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auto code = morse_code & 0xff; // dits (0) and dahs (1)
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auto size = morse_code >> 8; // number of dits and dahs in code
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while (size--) {
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bitcount += set((code & 1) ? DURATION_DAH : DURATION_DIT,
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bitcount, true, f);
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// pause between symbols := 1 dit
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if (size) {
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bitcount += set(DURATION_DIT, bitcount, false, f);
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}
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code >>= 1;
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}
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if (*p && !isspace(*p)) {
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bitcount += set(DURATION_PAUSE_CHAR, bitcount, false, f);
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}
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}
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return bitcount;
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}
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public:
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// returns ith bit of morse sequence
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bool test(uint16_t i) const { return bits_->test(i); }
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// length of complete morse sequence in in bits
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size_t size() const { return bits_->size(); }
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Morse() : bits_(new Bitset(0)) {}
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explicit Morse(const char* s) {
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const auto length = iterate_sequence(s, [](int, bool) -> void {});
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auto bits = new Bitset(length);
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iterate_sequence(s, [bits](int i, bool v) -> void { bits->set(i, v); });
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bits_ = bits;
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}
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~Morse() { delete bits_; }
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// make sure that the following, currently not needed, methods are not used
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Morse(const Morse&m) {*this = m;}
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Morse& operator=(const Morse&m) {
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delete bits_;
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bits_ = new Bitset(*m.bits_);
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return *this;
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}
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private:
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// stores morse bit sequence
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const Bitset* bits_ = nullptr;
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};
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#endif // EXAMPLES_MORSE_MORSE_H_
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@ -16,9 +16,7 @@
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#include <AsyncTCP.h>
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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 <jled.h> // jled
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#include "jled/morse.h" //jled
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#include "morse.h"
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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 <string>
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@ -28,6 +26,10 @@
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AsyncWebServer server(80);
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// Assign output variables to GPIO pins
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const int keyer = 32; //LED_BUILTIN for on-board (dev);//26 for LED; //32 for transmitter keyer
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const int blinker = LED_BUILTIN;
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RTC_DS3231 rtc; // set up RTC
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const int alarmPin = 4; // pin to monitor for RTC alarms
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@ -61,9 +63,12 @@ bool programRunning;
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int yourInputStepLength;
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int yourInputCycleID;
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int yourInputNtransmitters;
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int step_length = 10000; // 10 secs
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int cycle_id = 1; // number of this transmitter in cycle
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int n_transmitters = 2; //number of transmitters total
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//int step_length = 10000; // 10 secs
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//int cycle_id = 1; // number of this transmitter in cycle
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//int n_transmitters = 2; //number of transmitters total
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long start_millis = 0;
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long stop_millis = 0;
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long pause_until_millis = 0;
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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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||||
|
@ -166,21 +171,6 @@ const char index_html[] PROGMEM = R"rawliteral(
|
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</script>
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</body></html>)rawliteral";
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// Assign output variables to GPIO pins
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const int keyer = 32; //LED_BUILTIN for on-board (dev);//26 for LED; //32 for transmitter keyer
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const int blinker = LED_BUILTIN;
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// Timers
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//auto timer = timer_create_default();
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Timer<1> timer;
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|
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// Example from https://github.com/contrem/arduino-timer#examples
|
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bool toggle_led(void *) {
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//Serial.print("Timer time: ");
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//Serial.println(rtc.now().timestamp());
|
||||
digitalWrite(LED_BUILTIN, !digitalRead(LED_BUILTIN)); // toggle the LED
|
||||
return true; // keep timer active? true
|
||||
}
|
||||
|
||||
void notFound(AsyncWebServerRequest *request) {
|
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request->send(404, "text/plain", "Not found");
|
||||
|
@ -255,24 +245,10 @@ String processor(const String& var){
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return String();
|
||||
}
|
||||
|
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//jled from https://github.com/jandelgado/jled/blob/master/examples/morse/morse_effect.h
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class MorseEffect : public jled::BrightnessEvaluator {
|
||||
Morse morse_;
|
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// duration of a single 'dit' in ms
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const uint16_t speed_;
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||||
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||||
public:
|
||||
explicit MorseEffect(const char* message, uint16_t speed = 200)
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: morse_(message), speed_(speed) {}
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uint8_t Eval(uint32_t t) const override {
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const auto pos = t / speed_;
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if (pos >= morse_.size()) return 0;
|
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return morse_.test(pos) ? 255 : 0;
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||||
}
|
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|
||||
uint16_t Period() const override { return (morse_.size() + 1) * speed_; }
|
||||
};
|
||||
// Set up arduinomorse pin and default WPM
|
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LEDMorseSender sender(blinker, 10.0f) ; // the 'f' makes sure this is a float
|
||||
// TODO also for keyer once blinker works
|
||||
|
||||
// Speed is milliseconds per dit, which is 1000 * (60 / (50 * WPM))
|
||||
// 60 is 20 wpm, 120 is 10 wpm, 90 is 15 wpm, etc.
|
||||
|
@ -280,97 +256,6 @@ class MorseEffect : public jled::BrightnessEvaluator {
|
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float wpm = 10;
|
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float ms_per_dit = 1000 * (60 / (50 * wpm));
|
||||
int word_space_ms = ms_per_dit * 7;
|
||||
// Hardcoding messages and WPM for now, will come back and make it more flexible.
|
||||
// Extra space at the end to get around https://github.com/jandelgado/jled/issues/122 on cycle mode
|
||||
MorseEffect morseEffectTEST("TEST TEST TEST DE W1CDN", ms_per_dit);
|
||||
MorseEffect morseEffectMOE("MOE", ms_per_dit);
|
||||
MorseEffect morseEffectMOI("MOI", ms_per_dit);
|
||||
MorseEffect morseEffectMOS("MOS", ms_per_dit);
|
||||
MorseEffect morseEffectMOH("MOH", ms_per_dit);
|
||||
MorseEffect morseEffectMO5("MO5", ms_per_dit);
|
||||
|
||||
// CW for keyer
|
||||
auto morseTEST =
|
||||
JLed(keyer).UserFunc(&morseEffectTEST).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOE =
|
||||
JLed(keyer).UserFunc(&morseEffectMOE).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOI =
|
||||
JLed(keyer).UserFunc(&morseEffectMOI).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOS =
|
||||
JLed(keyer).UserFunc(&morseEffectMOS).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOH =
|
||||
JLed(keyer).UserFunc(&morseEffectMOH).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMO5 =
|
||||
JLed(keyer).UserFunc(&morseEffectMO5).DelayAfter(word_space_ms).Forever();
|
||||
auto morseToSend = morseTEST; // set this up to overwrite later
|
||||
|
||||
// CW for blinker
|
||||
auto morseTEST_blink =
|
||||
JLed(blinker).UserFunc(&morseEffectTEST).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOE_blink =
|
||||
JLed(blinker).UserFunc(&morseEffectMOE).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOI_blink =
|
||||
JLed(blinker).UserFunc(&morseEffectMOI).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOS_blink =
|
||||
JLed(blinker).UserFunc(&morseEffectMOS).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMOH_blink =
|
||||
JLed(blinker).UserFunc(&morseEffectMOH).DelayAfter(word_space_ms).Forever();
|
||||
auto morseMO5_blink =
|
||||
JLed(blinker).UserFunc(&morseEffectMO5).DelayAfter(word_space_ms).Forever();
|
||||
auto morseToSend_blink = morseTEST_blink; // set this up to overwrite later
|
||||
|
||||
// Cycle stuff
|
||||
auto morse_cycle = morseEffectMOS;
|
||||
int period = morse_cycle.Period() + word_space_ms;
|
||||
int repeats = step_length / period;
|
||||
int remainder_wait = step_length - (period * repeats);
|
||||
int total_wait = ((step_length * (n_transmitters - 1) + remainder_wait));
|
||||
auto blinker_continuous = JLed(blinker).UserFunc(&morse_cycle).Repeat(repeats).DelayAfter(word_space_ms);
|
||||
auto blinker_continuous_wait = JLed(blinker).Off(total_wait);
|
||||
JLed morses_blink[] = {
|
||||
blinker_continuous,
|
||||
blinker_continuous_wait
|
||||
};
|
||||
auto morses_sequence_blink = JLedSequence(JLedSequence::eMode::SEQUENCE, morses_blink);
|
||||
|
||||
|
||||
|
||||
|
||||
JLedSequence* sequence = NULL;
|
||||
JLedSequence* make_sequence(JLedSequence* seq, const char* message, int wpm, int step_length, int n_transmitters){
|
||||
int ms_per_dit = 60;//1000 * (60 / (50 * wpm));
|
||||
int word_space_ms = ms_per_dit * 7;
|
||||
MorseEffect morse_effect(message, ms_per_dit);
|
||||
int period = morse_effect.Period();
|
||||
int repeats = 2;//step_length / period;
|
||||
int remainder_wait = step_length - (period * repeats);
|
||||
int total_wait = ((step_length * (n_transmitters - 1) + remainder_wait));
|
||||
Serial.print("total_wait: "); Serial.println(total_wait);
|
||||
JLed morses_blink[] = {
|
||||
JLed(blinker).UserFunc(&morse_effect).Repeat(repeats).DelayAfter(word_space_ms),
|
||||
JLed(blinker).Off(total_wait)
|
||||
};
|
||||
if (seq){
|
||||
delete seq;
|
||||
//seq = new JLedSequence(JLedSequence::eMode::SEQUENCE, leds);
|
||||
seq = new JLedSequence(JLedSequence::eMode::SEQUENCE, morses_blink);
|
||||
}
|
||||
return seq;
|
||||
}
|
||||
// Initial definition of the sequence
|
||||
JLedSequence* morses_sequence_blink_test = make_sequence(sequence, "MOE", 10, 10000, 2);
|
||||
|
||||
|
||||
|
||||
|
||||
//================================================================================
|
||||
// start_program(): a function to start the planned program at the planned time
|
||||
//================================================================================
|
||||
// bool start_program(){
|
||||
// Serial.println("The scheduled program has started.");
|
||||
// startProgram = true;
|
||||
// return false;
|
||||
// }
|
||||
|
||||
//================================================================================
|
||||
// setup(): stuff that only gets done once, after power up (KB1OIQ's description)
|
||||
|
@ -378,7 +263,8 @@ JLedSequence* morses_sequence_blink_test = make_sequence(sequence, "MOE", 10, 10
|
|||
void setup() {
|
||||
Serial.begin(115200);
|
||||
|
||||
|
||||
// Get arduinomorse ready to go
|
||||
sender.setup();
|
||||
|
||||
pinMode(alarmPin, INPUT_PULLUP); // Set alarm pin as pullup
|
||||
|
||||
|
@ -411,10 +297,10 @@ void setup() {
|
|||
|
||||
// Initialize the output variables as outputs
|
||||
pinMode(keyer, OUTPUT);
|
||||
pinMode(blinker, OUTPUT);
|
||||
//pinMode(blinker, OUTPUT);
|
||||
// Set outputs to LOW
|
||||
digitalWrite(keyer, LOW);
|
||||
digitalWrite(blinker, LOW);
|
||||
//digitalWrite(blinker, LOW);
|
||||
|
||||
// Initialize SPIFFS
|
||||
SPIFFS.begin(true);
|
||||
|
@ -441,23 +327,17 @@ void setup() {
|
|||
// On restart, keep doing what you were doing before
|
||||
yourInputMsg_old = yourInputMsg;
|
||||
if(yourInputMsg == 0){
|
||||
morseToSend = morseTEST;
|
||||
morseToSend_blink = morseTEST_blink;
|
||||
sender.setMessage(String("test test test de w1cdn "));
|
||||
} else if(yourInputMsg == 1){
|
||||
morseToSend = morseMOE;
|
||||
morseToSend_blink = morseMOE_blink;
|
||||
sender.setMessage(String("moe "));
|
||||
} else if(yourInputMsg == 2){
|
||||
morseToSend = morseMOI;
|
||||
morseToSend_blink = morseMOI_blink;
|
||||
sender.setMessage(String("moi "));
|
||||
} else if(yourInputMsg == 3){
|
||||
morseToSend = morseMOS;
|
||||
morseToSend_blink = morseMOS_blink;
|
||||
sender.setMessage(String("mos "));
|
||||
} else if(yourInputMsg == 4){
|
||||
morseToSend = morseMOH;
|
||||
morseToSend_blink = morseMOH_blink;
|
||||
sender.setMessage(String("moh "));
|
||||
} else if(yourInputMsg == 5){
|
||||
morseToSend = morseMO5;
|
||||
morseToSend_blink = morseMO5_blink;
|
||||
sender.setMessage(String("mo5 "));
|
||||
}
|
||||
|
||||
WiFi.mode(WIFI_STA);
|
||||
|
@ -490,10 +370,11 @@ void setup() {
|
|||
writeFile(SPIFFS, "/inputSend.txt", inputMessage.c_str());
|
||||
yourInputSend = inputMessage.toInt();
|
||||
// if not running a program, set the program running off
|
||||
if(yourInputSend != 2){
|
||||
//if(yourInputSend != 2){
|
||||
// Cease all programs on new input
|
||||
startProgram = false;
|
||||
programRunning = false;
|
||||
}
|
||||
//}
|
||||
}
|
||||
// GET inputWPM value on <ESP_IP>/get?inputWPM=<inputMessage>
|
||||
if (request->hasParam(PARAM_WPM)) {
|
||||
|
@ -508,6 +389,21 @@ void setup() {
|
|||
// save previous state
|
||||
yourInputMsg_old = yourInputMsg;
|
||||
yourInputMsg = inputMessage.toInt();
|
||||
|
||||
// Check the message every time the form is submitted.
|
||||
if(yourInputMsg == 0){
|
||||
sender.setMessage(String("test test test de w1cdn "));
|
||||
} else if(yourInputMsg == 1){
|
||||
sender.setMessage(String("moe "));
|
||||
} else if(yourInputMsg == 2){
|
||||
sender.setMessage(String("moi "));
|
||||
} else if(yourInputMsg == 3){
|
||||
sender.setMessage(String("mos "));
|
||||
} else if(yourInputMsg == 4){
|
||||
sender.setMessage(String("moh "));
|
||||
} else if(yourInputMsg == 5){
|
||||
sender.setMessage(String("mo5 "));
|
||||
}
|
||||
}
|
||||
// GET inputStepLength value on <ESP_IP>/get?inputStepLength=<inputMessage>
|
||||
if (request->hasParam(PARAM_STEPLENGTH)) {
|
||||
|
@ -582,13 +478,6 @@ void setup() {
|
|||
yourInputStartTimeUnix = atol(inputMessage.c_str());
|
||||
//}
|
||||
Serial.println(yourInputStartTimeUnix);
|
||||
|
||||
// We can't use arduino-timer for starting a program because
|
||||
// it relies on millis(), which reset on power cycle.
|
||||
// timer.at(millis() + 10000, toggle_led);
|
||||
// Serial.println(millis());
|
||||
// auto active_tasks = timer.size();
|
||||
// Serial.println(active_tasks);
|
||||
|
||||
// Use alarm built into RTC
|
||||
rtc.setAlarm1(DateTime(yourInputStartTimeUnix), DS3231_A1_Date);
|
||||
|
@ -607,37 +496,26 @@ void setup() {
|
|||
}
|
||||
|
||||
void loop() {
|
||||
// Timers
|
||||
timer.tick();
|
||||
|
||||
morses_sequence_blink_test->Forever().Update();
|
||||
|
||||
// See which message we are sending
|
||||
// See which message we are sending
|
||||
// Only do this when the message has been updated.
|
||||
if(yourInputMsg != yourInputMsg_old){
|
||||
//morseToSend.Stop(JLed::eStopMode::FULL_OFF).Update();
|
||||
if(yourInputMsg == 0){
|
||||
morseToSend = morseTEST;
|
||||
morseToSend_blink = morseTEST_blink;
|
||||
} else if(yourInputMsg == 1){
|
||||
morseToSend = morseMOE;
|
||||
morseToSend_blink = morseMOE_blink;
|
||||
} else if(yourInputMsg == 2){
|
||||
morseToSend = morseMOI;
|
||||
morseToSend_blink = morseMOI_blink;
|
||||
} else if(yourInputMsg == 3){
|
||||
morseToSend = morseMOS;
|
||||
morseToSend_blink = morseMOS_blink;
|
||||
} else if(yourInputMsg == 4){
|
||||
morseToSend = morseMOH;
|
||||
morseToSend_blink = morseMOH_blink;
|
||||
} else if(yourInputMsg == 5){
|
||||
morseToSend = morseMO5;
|
||||
morseToSend_blink = morseMO5_blink;
|
||||
}
|
||||
// Keeps the key/led from locking up
|
||||
yourInputMsg_old = yourInputMsg;
|
||||
}
|
||||
// if(yourInputMsg != yourInputMsg_old){
|
||||
// if(yourInputMsg == 0){
|
||||
// sender.setMessage(String("test test test de w1cdn "));
|
||||
// } else if(yourInputMsg == 1){
|
||||
// sender.setMessage(String("moe "));
|
||||
// } else if(yourInputMsg == 2){
|
||||
// sender.setMessage(String("moi "));
|
||||
// } else if(yourInputMsg == 3){
|
||||
// sender.setMessage(String("mos "));
|
||||
// } else if(yourInputMsg == 4){
|
||||
// sender.setMessage(String("moh "));
|
||||
// } else if(yourInputMsg == 5){
|
||||
// sender.setMessage(String("mo5 "));
|
||||
// }
|
||||
// // Keeps the key/led from locking up
|
||||
// yourInputMsg_old = yourInputMsg;
|
||||
// }
|
||||
|
||||
// This statement from https://github.com/garrysblog/DS3231-Alarm-With-Adafruit-RTClib-Library/blob/master/DS3231-RTClib-Adafruit-Alarm-Poll-alarmFired/DS3231-RTClib-Adafruit-Alarm-Poll-alarmFired.ino
|
||||
// Check if alarm by polling SQW alarm pin
|
||||
|
@ -655,58 +533,53 @@ void loop() {
|
|||
|
||||
// Once alarm has started the program, set things up to run
|
||||
if(startProgram == true){
|
||||
//auto morse_cycle = morseEffectMOS;
|
||||
//int period = morse_cycle.Period() + word_space_ms;
|
||||
//int repeats = step_length / period;
|
||||
//int remainder_wait = step_length - (period * repeats);
|
||||
//int total_wait = ((step_length * (n_transmitters - 1) + remainder_wait));
|
||||
|
||||
// Nothing makes it out of this scope...
|
||||
// blinker_continuous = JLed(blinker).UserFunc(&morse_cycle).Repeat(repeats).DelayAfter(word_space_ms);
|
||||
// blinker_continuous_wait = JLed(blinker).Off(total_wait);
|
||||
// JLed morses_blink[] = {
|
||||
// blinker_continuous,
|
||||
// blinker_continuous_wait
|
||||
// };
|
||||
// auto morses_sequence_blink = JLedSequence(JLedSequence::eMode::SEQUENCE, morses_blink);
|
||||
|
||||
morses_sequence_blink.Forever().Update();
|
||||
//Serial.println("Start sending");
|
||||
start_millis = millis() + ((yourInputCycleID - 1) * yourInputStepLength);
|
||||
stop_millis = start_millis + yourInputStepLength;
|
||||
if(yourInputCycleID == 1){
|
||||
pause_until_millis = stop_millis + (yourInputStepLength * (yourInputNtransmitters - 1));
|
||||
} else {
|
||||
// Subtract 2 rather than 1 here to account for start_millis duration at beginning of repeat.
|
||||
pause_until_millis = stop_millis + (yourInputStepLength * (yourInputNtransmitters - 2));
|
||||
}
|
||||
//sender.startSending();
|
||||
programRunning = true;
|
||||
startProgram = false;
|
||||
}
|
||||
|
||||
// if you want to send continuous code, and it's not sending, then start it up
|
||||
if((yourInputSend == 1) & (morseToSend.IsRunning() == false)){
|
||||
//jled
|
||||
morseToSend.Reset().Update();
|
||||
morseToSend_blink.Reset().Update();
|
||||
|
||||
// if you want to send continuous code, and it is sending, keep sending
|
||||
} else if((yourInputSend == 1) & (morseToSend.IsRunning() == true)){
|
||||
morseToSend.Update();
|
||||
morseToSend_blink.Update();
|
||||
|
||||
// if you want to send cycle code and it is sending, keep sending
|
||||
} else if((yourInputSend == 2) & (programRunning == true) &(morses_sequence_blink.Update() == true)){
|
||||
morseToSend.Update();
|
||||
//morseToSend_blink.Update();
|
||||
morses_sequence_blink.Update();
|
||||
|
||||
if((yourInputSend == 1)){
|
||||
if (!sender.continueSending()){
|
||||
// Set the internal counters to the message's beginning.
|
||||
// Here, this results in repeating the message indefinitely.
|
||||
sender.startSending();
|
||||
}
|
||||
// if you want to send cycle code and it's not sending, then start it up
|
||||
} else if((yourInputSend == 2) & (programRunning == true) & (morses_sequence_blink.Update() == false)){
|
||||
morseToSend.Reset().Update();
|
||||
//morseToSend_blink.Reset().Update();
|
||||
morses_sequence_blink.Reset();
|
||||
} else if((yourInputSend == 2) & (programRunning == true)){
|
||||
if((millis() < start_millis)){
|
||||
// Shut the pin off manually
|
||||
digitalWrite(blinker, LOW);
|
||||
} else if((millis() >= start_millis) & (millis() <= stop_millis)){
|
||||
if (!sender.continueSending()){
|
||||
// Set the internal counters to the message's beginning.
|
||||
// Here, this results in repeating the message indefinitely.
|
||||
sender.startSending();
|
||||
}
|
||||
} else if((millis() >= stop_millis) & (millis() <= pause_until_millis)){
|
||||
// do nothing in this case -- in between cycles
|
||||
// Shut the pin off manually
|
||||
digitalWrite(blinker, LOW);
|
||||
} else if((millis() >= pause_until_millis)){
|
||||
startProgram = true;
|
||||
}
|
||||
// if the cycle program is not running
|
||||
} else if((yourInputSend == 2) & (programRunning == false)){
|
||||
morses_sequence_blink.Stop();
|
||||
// do we need something here?
|
||||
// if you don't want to send code
|
||||
} else {
|
||||
// stop sending and make sure the pin is off
|
||||
morseToSend.Stop(JLed::eStopMode::FULL_OFF).Update();
|
||||
morseToSend_blink.Stop(JLed::eStopMode::FULL_OFF).Update();
|
||||
morses_sequence_blink.Stop();
|
||||
} else if(yourInputSend == 0){
|
||||
//sender.setMessage(String("")) ; // Not sure this is the right way to stop things.
|
||||
// Shut the pin off manually
|
||||
digitalWrite(blinker, LOW);
|
||||
}
|
||||
//morseToSend.Update();
|
||||
|
||||
}
|
232
vulpes/src/morse.cpp
Executable file
232
vulpes/src/morse.cpp
Executable file
|
@ -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) {};
|
276
vulpes/src/morse.h
Executable file
276
vulpes/src/morse.h
Executable file
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#pragma once
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/**
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* Generate and send Morse Code on an LED or a speaker. Allow sending
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* in a non-blocking manner (by calling a 'continue sending' method
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* every so often to turn an LED on/off, or to call tone/noTone appropriately).
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*
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* All input should be lowercase. Prosigns (SK, KN, etc) have special
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* character values #defined.
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*
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* See also:
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* Morse decoder (using binary tree):
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* http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1289074596/15
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* Generator (on playground):
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* http://www.arduino.cc/playground/Code/Morse
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*/
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// for malloc and free, for the new/delete operators
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#include <stdlib.h>
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#include <analogWrite.h>
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// Arduino language types
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#if defined(ARDUINO) && ARDUINO >= 100
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#include "Arduino.h"
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#else
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#include "WProgram.h"
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#endif
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#define WPM_DEFAULT 12.0
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// PARIS WPM measurement: 50; CODEX WPM measurement: 60 (Wikipedia:Morse_code)
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#define DITS_PER_WORD 50
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// Pass to SpeakerMorseSender as carrierFrequency to suppress the carrier.
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#define CARRIER_FREQUENCY_NONE 0
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// Bitmasks are 1 for dah and 0 for dit, in left-to-right order;
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// the sequence proper begins after the first 1 (a sentinel).
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// Credit for this scheme to Mark VandeWettering K6HX ( brainwagon.org ).
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typedef unsigned int morseTiming_t;
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typedef unsigned char morseBitmask_t; // see also MAX_TIMINGS
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#define MORSE_BITMASK_HIGH_BIT B10000000
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// sentinel
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#define END 0
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// the most timing numbers any unit will need; ex: k = on,off,on,off,on,end = 5
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#define MAX_TIMINGS 15
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// Punctuation and Prosigns
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#define PROSIGN_SK 'S'
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#define PROSIGN_KN 'K'
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#define PROSIGN_BT 'B'
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typedef struct {
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char c;
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morseBitmask_t timing;
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} specialTiming;
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const specialTiming MORSE_PUNCT_ETC[] = {
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{'.', B1010101},
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{'?', B1001100},
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{'/', B110010},
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{PROSIGN_SK, B1000101},
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{PROSIGN_KN, B110110},
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{PROSIGN_BT, B110001},
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{END, B1},
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};
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// Morse Code (explicit declaration of letter timings)
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const morseBitmask_t MORSE_LETTERS[26] = {
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/* a */ B101,
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/* b */ B11000,
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/* c */ B11010,
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/* d */ B1100,
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/* e */ B10,
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/* f */ B10010,
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/* g */ B1110,
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/* h */ B10000,
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/* i */ B100,
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/* j */ B10111,
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/* k */ B1101,
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/* l */ B10100,
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/* m */ B111,
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/* n */ B110,
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/* o */ B1111,
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/* p */ B10110,
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/* q */ B11101,
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/* r */ B1010,
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/* s */ B1000,
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/* t */ B11,
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/* u */ B1001,
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/* v */ B10001,
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/* w */ B1011,
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/* x */ B11001,
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/* y */ B11011,
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/* z */ B11100,
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};
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/**
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* Define the logic of converting characters to on/off timing,
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* and encapsulate the state of one sending-in-progress Morse message.
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*
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* Subclasses define setOn and setOff for (for example) LED and speaker output.
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*/
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class MorseSender {
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protected:
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const unsigned int pin;
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// The setOn and setOff methods would be pure virtual,
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// but that has compiler issues.
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// See: http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1167672075 .
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/**
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* Called to set put the output in 'on' state, during a dit or dah.
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*/
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virtual void setOn();
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virtual void setOff();
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/**
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* Called before sending a message. Used for example to enable a
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* carrier. (Noop in the base class.)
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*/
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virtual void setReady();
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virtual void setComplete();
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private:
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morseTiming_t DIT, DAH;
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String message;
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// on,off,...,wait,0 list, millis
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morseTiming_t timingBuffer[MAX_TIMINGS+1];
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// index of the character currently being sent
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unsigned int messageIndex;
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// timing unit currently being sent
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unsigned int timingIndex;
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// when this timing unit was started
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unsigned long lastChangedMillis;
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/**
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* Copy definition timings (on only) to raw timings (on/off).
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* @return the number of 'on' timings copied
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*/
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int copyTimings(morseTiming_t *rawOut,
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morseBitmask_t definition);
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/**
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* Fill a buffer with on,off,..,END timings (millis)
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* @return the index at which to start within the new timing sequence
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*/
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unsigned int fillTimings(char c);
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public:
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/**
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* Create a sender which will output to the given pin.
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*/
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MorseSender(unsigned int outputPin, float wpm=WPM_DEFAULT);
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/**
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* To be called during the Arduino setup(); set the pin as OUTPUT.
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*/
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void setup();
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/**
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* Set the words per minute (based on PARIS timing).
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*/
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void setWPM(float wpm);
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/**
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* Set the duration, in milliseconds, of a DIT.
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*/
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void setSpeed(morseTiming_t duration);
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/**
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* Set the message to be sent.
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* This halts any sending in progress.
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*/
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void setMessage(const String newMessage);
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/**
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* Send the entirety of the current message before returning. See the "simple"
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* example, which uses sendBlocking to send one message.
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*/
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void sendBlocking();
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/**
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* Prepare to send and begin sending the current message. After calling this,
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* call continueSending repeatedly until it returns false to finish sending
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* the message. See the "speeds" example, which calls startSending and
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* continueSending on two different senders.
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*/
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void startSending();
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/**
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* Switch outputs on and off (and refill the internal timing buffer)
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* as necessary to continue with the sending of the current message.
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* This should be called every few milliseconds (at a significantly
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* smaller interval than a DIT) to produce a legible fist.
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*
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* @see startSending, which must be called first
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* @return false if sending is complete, otherwise true (keep sending)
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*/
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boolean continueSending();
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void *operator new(size_t size);
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void operator delete(void* ptr);
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};
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/**
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* Adapt Morse sending to use the Arduino language tone() and noTone()
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* functions, for use with a speaker.
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*
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* If a carrierFrequency is given, instead of calling noTone, call tone
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* with a low frequency. This is useful ex. for maintaining radio links.
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*/
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class SpeakerMorseSender: public MorseSender {
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private:
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unsigned int frequency;
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unsigned int carrFrequency;
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protected:
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virtual void setOn();
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virtual void setOff();
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virtual void setReady();
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virtual void setComplete();
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public:
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// concert A = 440
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// middle C = 261.626; higher octaves = 523.251, 1046.502
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SpeakerMorseSender(
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int outputPin,
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unsigned int toneFrequency=1046,
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unsigned int carrierFrequency=CARRIER_FREQUENCY_NONE,
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float wpm=WPM_DEFAULT);
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};
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/**
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* Sends Morse on a digital output pin.
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*/
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class LEDMorseSender: public MorseSender {
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private:
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bool activeLow;
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protected:
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virtual void setOn();
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virtual void setOff();
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public:
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/**
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* Creates a LED Morse code sender with the given GPIO pin. The optional
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* boolean activeLow indicates LED is ON with digital LOW value.
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* @param outputPin GPIO pin number
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* @param activeLow set to true to indicate the LED ON with digital LOW value. default: false
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* @param wpm words per minute, default: WPM_DEFAULT
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*/
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LEDMorseSender(int outputPin, bool activeLow = false, float wpm=WPM_DEFAULT);
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/**
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* Creates a LED Morse code sender with the given GPIO pin. This constructor is for backward compability.
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* @param outputPin GPIO pin number
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* @param wpm words per minute
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*/
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LEDMorseSender(int outputPin, float wpm);
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};
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/**
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* Sends Morse on an analog output pin (using PWM). The brightness value is
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* between 0 and 255 and is passed directly to analogWrite.
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*/
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class PWMMorseSender: public MorseSender {
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private:
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byte brightness;
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protected:
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virtual void setOn();
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virtual void setOff();
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public:
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PWMMorseSender(int outputPin, float wpm=WPM_DEFAULT, byte brightness=255);
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void setBrightness(byte brightness);
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};
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