#include #include // use IDE menu Tools..Manage Libraries to locate and install TimerOne #include "avdweb_AnalogReadFast.h" #include "Hardware.h" #include "Config.h" #include "DIAG.h" #if defined(ARDUINO_ARCH_AVR) #include // use IDE menu Tools..Manage Libraries to locate and install DIO2 #define WritePin digitalWrite2 #else #define WritePin digitalWrite #endif void Hardware::init() { pinMode(MAIN_POWER_PIN, OUTPUT); pinMode(MAIN_SIGNAL_PIN, OUTPUT); if (MAIN_SIGNAL_PIN_ALT) pinMode(MAIN_SIGNAL_PIN_ALT, OUTPUT); pinMode(MAIN_SENSE_PIN, INPUT); pinMode(PROG_POWER_PIN, OUTPUT); pinMode(PROG_SIGNAL_PIN, OUTPUT); if (PROG_SIGNAL_PIN_ALT) pinMode(PROG_SIGNAL_PIN_ALT, OUTPUT); pinMode(PROG_SENSE_PIN, INPUT); } void Hardware::setPower(bool isMainTrack, bool on) { WritePin(isMainTrack ? MAIN_POWER_PIN : PROG_POWER_PIN, on ? HIGH : LOW); } void Hardware::setBrake(bool isMainTrack, bool on) { WritePin(isMainTrack ? MAIN_BRAKE_PIN : PROG_BRAKE_PIN, on ? LOW:HIGH); } void Hardware::setSignal(bool isMainTrack, bool high) { byte pin = isMainTrack ? MAIN_SIGNAL_PIN : PROG_SIGNAL_PIN; byte pin2 = isMainTrack ? MAIN_SIGNAL_PIN_ALT : PROG_SIGNAL_PIN_ALT; WritePin(pin, high ? HIGH : LOW); if (pin2) WritePin(pin2, high ? LOW : HIGH); } int Hardware::getCurrentMilliamps(bool isMainTrack) { byte pin = isMainTrack ? MAIN_SENSE_PIN : PROG_SENSE_PIN; float factor = isMainTrack ? MAIN_SENSE_FACTOR : PROG_SENSE_FACTOR; // IMPORTANT: This function can be called in Interrupt() time within the 56uS timer // The default analogRead takes ~100uS which is catastrphic // so analogReadFast is used here. (-2uS) int rawCurrent = analogReadFast(pin); return (int)(rawCurrent * factor); } void Hardware::setCallback(int duration, void (*isr)()) { Timer1.initialize(duration); // We don't want the timer to set pins because these often clash with motor shields etc. Timer1.disablePwm(TIMER1_A_PIN); Timer1.disablePwm(TIMER1_B_PIN); Timer1.attachInterrupt(isr); } // Railcom support functions, not yet implemented //void Hardware::setSingleCallback(int duration, void (*isr)()) { // Timer2.initialize(duration); // Timer2.disablePwm(TIMER1_A_PIN); // Timer2.disablePwm(TIMER1_B_PIN); // Timer2.attachInterrupt(isr); //} //void Hardware::resetSingleCallback(int duration) { // if (duration==0) Timer2.stop(); // else Timer2.initialize(duration); //}