#include #include "keyers.h" #define len(t) (sizeof(t)/sizeof(*t)) // Queue Set: A Set you can shift and pop. class QSet { int arr[MAX_KEYER_QUEUE]; unsigned int arrlen = 0; public: int shift() { if (arrlen == 0) { return -1; } int ret = arr[0]; arrlen--; for (int i = 0; i < arrlen; i++) { arr[i] = arr[i+1]; } return ret; } int pop() { if (arrlen == 0) { return -1; } int ret = arr[arrlen]; arrlen--; return ret; } void add(int val) { if (arrlen == MAX_KEYER_QUEUE-1) { return; } for (int i = 0; i < arrlen; i++) { if (arr[arrlen] == i) { return; } } arr[arrlen] = val; arrlen++; } }; class StraightKeyer: public Keyer { public: Transmitter *output; unsigned int ditDuration; bool txRelays[2]; StraightKeyer() { this->Reset(); } void SetOutput(Transmitter *output) { this->output = output; } void Reset() { if (this->output) { this->output->EndTx(); } this->ditDuration = 100; } void SetDitDuration(int duration) { this->ditDuration = duration; } void Release() { this->Reset(); } bool TxClosed() { for (int i = 0; i < len(this->txRelays); i++) { if (this->TxClosed(i)) { return true; } } return false; } bool TxClosed(int relay) { return this->txRelays[relay]; } void Tx(int relay, bool closed) { bool wasClosed = this->TxClosed(); this->txRelays[relay] = closed; bool nowClosed = this->TxClosed(); if (wasClosed != nowClosed) { if (nowClosed) { this->output->BeginTx(); } else { this->output->EndTx(); } } } void Key(Paddle key, bool pressed) { this->Tx(key, pressed); } void Tick(unsigned int millis) {}; }; class BugKeyer: public StraightKeyer { public: unsigned int nextPulse = 0; bool keyPressed[2]; using StraightKeyer::StraightKeyer; void Reset() { StraightKeyer::Reset(); this->nextPulse = 0; this->keyPressed[0] = false; this->keyPressed[1] = false; } void Key(Paddle key, bool pressed) { this->keyPressed[key] = pressed; if (key == 0) { this->beginPulsing(); } else { StraightKeyer::Key(key, pressed); } } void Tick(unsigned int millis) { if (this->nextPulse && (millis >= this->nextPulse)) { this->pulse(millis); } } void beginPulsing() { this->nextPulse = 1; } virtual void pulse(unsigned int millis) { if (this->TxClosed(0)) { this->Tx(0, false); } else if (this->keyPressed[0]) { this->Tx(0, true); } else { this->nextPulse = 0; return; } this->nextPulse = millis + this->ditDuration; } }; class ElBugKeyer: public BugKeyer { public: unsigned int nextRepeat; using BugKeyer::BugKeyer; void Reset() { BugKeyer::Reset(); this->nextRepeat = -1; } // Return which key is pressed. If none, return -1. int whichKeyPressed() { for (int i = 0; i < len(this->keyPressed); i++) { if (this->keyPressed[i]) { return i; } } return -1; } void Key(Paddle key, bool pressed) { this->keyPressed[key] = pressed; if (pressed) { this->nextRepeat = key; this->beginPulsing(); } else { this->nextRepeat = this->whichKeyPressed(); } } unsigned int keyDuration(int key) { switch (key) { case PADDLE_DIT: return this->ditDuration; case PADDLE_DAH: return 3 * (this->ditDuration); } return this->ditDuration; // XXX } virtual int nextTx() { if (this->whichKeyPressed() == -1) { return -1; } return this->nextRepeat; } virtual void pulse(unsigned int millis) { int nextPulse = 0; if (this->TxClosed(0)) { // Pause if we're currently transmitting nextPulse = this->keyDuration(PADDLE_DIT); this->Tx(0, false); } else { int next = this->nextTx(); if (next >= 0) { nextPulse = this->keyDuration(next); this->Tx(0, true); } } if (nextPulse) { this->nextPulse = millis + nextPulse; } else { this->nextPulse = 0; } } }; class UltimaticKeyer: public ElBugKeyer { public: QSet *queue; using ElBugKeyer::ElBugKeyer; void Reset() { ElBugKeyer::Reset(); this->queue = new QSet(); } void Key(Paddle key, bool pressed) { if (pressed) { this->queue->add(key); } ElBugKeyer::Key(key, pressed); } virtual int nextTx() { int key = this->queue->shift(); if (key != -1) { return key; } return ElBugKeyer::nextTx(); } }; class SingleDotKeyer: public ElBugKeyer { public: QSet *queue; using ElBugKeyer::ElBugKeyer; void Reset() { ElBugKeyer::Reset(); this->queue = new QSet(); } void Key(Paddle key, bool pressed) { if (pressed && (key == 0)) { this->queue->add(key); } ElBugKeyer::Key(key, pressed); } virtual int nextTx() { int key = this->queue->shift(); if (key != -1) { return key; } if (this->keyPressed[1]) return 1; if (this->keyPressed[0]) return 0; return -1; } }; class IambicKeyer: public ElBugKeyer { public: using ElBugKeyer::ElBugKeyer; virtual int nextTx() { int next = ElBugKeyer::nextTx(); if (this->whichKeyPressed() != -1) { this->nextRepeat = 1 - this->nextRepeat; } return next; } }; class IambicAKeyer: public IambicKeyer { public: QSet *queue; using IambicKeyer::IambicKeyer; void Reset() { IambicKeyer::Reset(); this->queue = new QSet(); } void Key(Paddle key, bool pressed) { if (pressed && (key == 0)) { this->queue->add(key); } IambicKeyer::Key(key, pressed); } virtual int nextTx() { int next = IambicKeyer::nextTx(); int key = this->queue->shift(); if (key != -1) { return key; } return next; } }; class IambicBKeyer: public IambicKeyer { public: QSet *queue; using IambicKeyer::IambicKeyer; void Reset() { IambicKeyer::Reset(); this->queue = new QSet(); } void Key(Paddle key, bool pressed) { if (pressed) { this->queue->add(key); } IambicKeyer::Key(key, pressed); } virtual int nextTx() { for (int key = 0; key < 2; key++) { if (this->keyPressed[key]) { this->queue->add(key); } } return this->queue->shift(); } }; class KeyaheadKeyer: public ElBugKeyer { public: int queue[MAX_KEYER_QUEUE]; unsigned int qlen; using ElBugKeyer::ElBugKeyer; void Reset() { ElBugKeyer::Reset(); this->qlen = 0; } void Key(Paddle key, bool pressed) { if (pressed) { if (this->qlen < MAX_KEYER_QUEUE) { this->queue[this->qlen++] = key; } } ElBugKeyer::Key(key, pressed); } virtual int nextTx() { if (this->qlen > 0) { int next = this->queue[0]; this->qlen--; for (int i = 0; i < this->qlen; i++) { this->queue[i] = this->queue[i+1]; } return next; } return ElBugKeyer::nextTx(); } }; // StraightKeyer straightKeyer = StraightKeyer(); // BugKeyer bugKeyer = BugKeyer(); // ElBugKeyer elBugKeyer = ElBugKeyer(); // SingleDotKeyer singleDotKeyer = SingleDotKeyer(); // UltimaticKeyer ultimaticKeyer = UltimaticKeyer(); // IambicKeyer iambicKeyer = IambicKeyer(); // IambicAKeyer iambicAKeyer = IambicAKeyer(); // IambicBKeyer iambicBKeyer = IambicBKeyer(); // KeyaheadKeyer keyaheadKeyer = KeyaheadKeyer(); Keyer *keyers[] = { // &straightKeyer, // &bugKeyer, // &elBugKeyer, // &singleDotKeyer, // &ultimaticKeyer, // &iambicKeyer, // &iambicAKeyer, // &iambicBKeyer, // &keyaheadKeyer, }; Keyer *GetKeyerByNumber(int n, Transmitter *output) { if (n >= len(keyers)) { return NULL; } Keyer *k = keyers[n]; k->SetOutput(output); return k; }