#include DigitalOutputCard::DigitalOutputCard(uint8_t address) { this->address = address; // load default pin map for (int i = 0; i < 16; i++) { this->pinMap[i] = i; this->virtualPinMap[i] = i; } } // Instantiate the card with the specified position on the dip switch DigitalOutputCard::DigitalOutputCard(bool bit0, bool bit1, bool bit2, bool bit3, bool bit4) { this->address = 0x20; if (bit0) this->address += 1; if (bit1) this->address += 2; if (bit2) this->address += 4; if (bit3) this->address += 8; if (bit4) this->address += 16; } // Initialize the card bool DigitalOutputCard::begin() { this->pwm = Adafruit_PWMServoDriver(this->address); this->pwm.begin(); pwm.setOutputMode(true); // Output card don't send ack, we can't check if it's connected // so we just return true return true; } // Set the output to the specified state void DigitalOutputCard::digitalWrite(uint8_t pin, bool state) { this->pwm.setPin(virtualPinMap[pin], state ? 4095 : 0); this->state_buffer[pin] = state; this->value_buffer[pin] = state ? 4095 : 0; if (this->framAutoSave) { this->saveStateToFRAM(); this->savePinValueToFRAM(pin); } if(change_callback != NULL) { change_callback(pin, state, state ? 4095 : 0); } } // Set the output to the specified pwm value void DigitalOutputCard::analogWrite(uint8_t pin, uint16_t value) { // If value is greater than 4095, set it to 4095 if (value > 4095) value = 4095; // Set the pwm value this->pwm.setPin(virtualPinMap[pin], value); if (this->framAutoSave) { this->saveStateToFRAM(); this->savePinValueToFRAM(pin); } this->state_buffer[pin] = value > 0; this->value_buffer[pin] = value; if(change_callback != NULL) { change_callback(pin, value > 0, value); } } // Dummy loop function void DigitalOutputCard::loop() { } // Get the state of the specified pin bool DigitalOutputCard::getState(uint8_t pin) { return this->state_buffer[pin]; } // Get the pwm value of the specified pin uint16_t DigitalOutputCard::getValue(uint8_t pin) { return this->value_buffer[pin]; } // Get type of card uint8_t DigitalOutputCard::getType() { return CARD_TYPE_DIGITAL_OUTPUT; } void DigitalOutputCard::setState(uint8_t pin, bool state) { this-> state_buffer[pin] = state; this->pwm.setPin(pin, state*value_buffer[pin]); if(this->framAutoSave) { this->saveStateToFRAM(); } if (change_callback != NULL) { change_callback(pin, state, value_buffer[pin]); } } void DigitalOutputCard::setValue(uint8_t pin, uint16_t value) { // If value is greater than 4095, set it to 4095 if (value > 4095) value = 4095; this-> value_buffer[pin] = value; this->pwm.setPin(pin, state_buffer[pin]*value); if (this->framAutoSave) { this->savePinValueToFRAM(pin); } if (change_callback != NULL) { change_callback(pin, state_buffer[pin], value); } } void DigitalOutputCard::registerChangeCallback(std::function callback) { this->change_callback = callback; } void DigitalOutputCard::deregisterChangeCallback() { this->change_callback = NULL; } void DigitalOutputCard::loadPinMap(uint8_t pinMap[16]) { for(int i = 0; i < 16; i++) { this->pinMap[i] = pinMap[i]; this->virtualPinMap[pinMap[i]] = i; } } void DigitalOutputCard::bindFRAM(FRAM *fram, uint16_t address) { this->fram = fram; this->framBinded = true; this->framAddress = address; } uint16_t DigitalOutputCard::packStates() { uint16_t packed = 0; for(int i = 0; i < 16; i++) { packed |= (state_buffer[i] << i); } return packed; } void DigitalOutputCard::unpackStates(uint16_t states) { for(int i = 0; i < 16; i++) { this->setState(i, (states >> i) & 1); } } void DigitalOutputCard::saveToFRAM() { if(!framBinded) return; // Save the state uint16_t packed = packStates(); this->fram->write16(framAddress, packed); // Save the value this->fram->write(framAddress+2, (uint8_t*)value_buffer, 32); } void DigitalOutputCard::loadFromFRAM() { if(!framBinded) return; // Load the state uint16_t packed = this->fram->read16(framAddress); unpackStates(packed); // Load the value uint16_t value[16]; this->fram->read(framAddress+2, (uint8_t*)value, 32); for(int i = 0; i < 16; i++) { this->setValue(i, value[i]); } } void DigitalOutputCard::setAutoSaveToFRAM(bool autoSave) { this->framAutoSave = autoSave; } void DigitalOutputCard::savePinValueToFRAM(uint8_t pin) { if(!framBinded) return; this->fram->write(framAddress+2+pin*2, (uint8_t*)&value_buffer[pin], 2); } void DigitalOutputCard::saveStateToFRAM() { if(!framBinded) return; uint16_t packed = packStates(); this->fram->write16(framAddress, packed); }