mirror of
https://github.com/DCC-EX/CommandStation-EX.git
synced 2024-11-30 03:26:13 +01:00
commit
cb4d9823b5
11
CVReader.ino
11
CVReader.ino
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@ -71,7 +71,14 @@ DCCEXParser serialParser;
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// Try monitoring the memory
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// Try monitoring the memory
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#include "freeMemory.h"
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#include "freeMemory.h"
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// TODO: this should be automated instead of ifdef
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#if defined(ARDUINO_AVR_MEGA2560)
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int minMemory=32767;
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int minMemory=32767;
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#elif defined(ARDUINO_AVR_UNO)
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int minMemory=2048;
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#else
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#error CANNOT COMPILE - Unkown board, can not determine amount of RAM available.
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#endif
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void setup() {
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void setup() {
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@ -89,8 +96,10 @@ void setup() {
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// and a 9600 baud rate.
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// and a 9600 baud rate.
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// setup(serial, F(router name), F(password) , port)
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// setup(serial, F(router name), F(password) , port)
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//
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//
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#ifdef WIFI
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Serial1.begin(115200);
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Serial1.begin(115200);
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WifiInterface::setup(Serial1, F("BTHub5-M6PT"), F("49de8d4862"),3532); // (3532 is 0xDCC decimal... )
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WifiInterface::setup(Serial1, F("BTHub5-M6PT"), F("49de8d4862"),3532); // (3532 is 0xDCC decimal... )
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#endif
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// This is just for demonstration purposes
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// This is just for demonstration purposes
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DIAG(F("\n===== CVReader demonstrating DCC::getLocoId() call ==========\n"));
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DIAG(F("\n===== CVReader demonstrating DCC::getLocoId() call ==========\n"));
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@ -116,7 +125,9 @@ void loop() {
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serialParser.loop(Serial);
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serialParser.loop(Serial);
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// Responsibility 3: Optionally handle any incoming WiFi traffic
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// Responsibility 3: Optionally handle any incoming WiFi traffic
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#ifdef WIFI
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WifiInterface::loop(Serial1);
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WifiInterface::loop(Serial1);
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#endif
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// Your additional code e.g. Report any decrease in memory
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// Your additional code e.g. Report any decrease in memory
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int freeNow=freeMemory();
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int freeNow=freeMemory();
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11
Config.h
11
Config.h
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@ -1,22 +1,29 @@
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#ifndef Config_h
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#ifndef Config_h
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#define Config_h
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#define Config_h
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// Define this if you have a WiFi board on Serial1
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// #define WIFI
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// This hardware configuration would normally be setup using a bunch of #ifdefs.
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// This hardware configuration would normally be setup using a bunch of #ifdefs.
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const byte UNUSED_PIN = 255;
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const byte MAIN_POWER_PIN = 3;
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const byte MAIN_POWER_PIN = 3;
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const byte MAIN_SIGNAL_PIN = 12;
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const byte MAIN_SIGNAL_PIN = 12;
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const byte MAIN_SIGNAL_PIN_ALT = 0; // for hardware that flipflops signal pins
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const byte MAIN_SIGNAL_PIN_ALT = UNUSED_PIN; // for hardware that flipflops signal pins
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const byte MAIN_SENSE_PIN = A0;
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const byte MAIN_SENSE_PIN = A0;
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const byte MAIN_BRAKE_PIN = 9;
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const byte MAIN_BRAKE_PIN = 9;
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const byte MAIN_FAULT_PIN = UNUSED_PIN;
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const int MAIN_MAX_MILLIAMPS=2000;
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const int MAIN_MAX_MILLIAMPS=2000;
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const float MAIN_SENSE_FACTOR=2.99; // analgRead(MAIN_SENSE_PIN) * MAIN_SENSE_FACTOR = milliamps
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const float MAIN_SENSE_FACTOR=2.99; // analgRead(MAIN_SENSE_PIN) * MAIN_SENSE_FACTOR = milliamps
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const byte PROG_POWER_PIN = 11;
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const byte PROG_POWER_PIN = 11;
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const byte PROG_SIGNAL_PIN = 13;
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const byte PROG_SIGNAL_PIN = 13;
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const byte PROG_SIGNAL_PIN_ALT = 0; // for hardware that flipflops signal pins
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const byte PROG_SIGNAL_PIN_ALT = UNUSED_PIN; // for hardware that flipflops signal pins
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const byte PROG_SENSE_PIN = A1;
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const byte PROG_SENSE_PIN = A1;
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const byte PROG_BRAKE_PIN = 8;
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const byte PROG_BRAKE_PIN = 8;
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const byte PROG_FAULT_PIN = UNUSED_PIN;
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const int PROG_MAX_MILLIAMPS=250;
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const int PROG_MAX_MILLIAMPS=250;
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const float PROG_SENSE_FACTOR=2.99; // analgRead(PROG_SENSE_PIN) * PROG_SENSE_FACTOR = milliamps
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const float PROG_SENSE_FACTOR=2.99; // analgRead(PROG_SENSE_PIN) * PROG_SENSE_FACTOR = milliamps
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@ -93,7 +93,9 @@ POWERMODE DCCWaveform::getPowerMode() {
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void DCCWaveform::setPowerMode(POWERMODE mode) {
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void DCCWaveform::setPowerMode(POWERMODE mode) {
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powerMode = mode;
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powerMode = mode;
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Hardware::setPower(isMainTrack, mode == POWERMODE::ON);
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bool ison = (mode == POWERMODE::ON);
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Hardware::setPower(isMainTrack, ison);
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Hardware::setBrake(isMainTrack, !ison);
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if (mode == POWERMODE::ON) delay(200);
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if (mode == POWERMODE::ON) delay(200);
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}
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}
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@ -112,13 +114,20 @@ void DCCWaveform::checkPowerOverload() {
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case POWERMODE::ON:
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case POWERMODE::ON:
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// Check current
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// Check current
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lastCurrent = Hardware::getCurrentRaw(isMainTrack);
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lastCurrent = Hardware::getCurrentRaw(isMainTrack);
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if (lastCurrent <= tripValue) sampleDelay = POWER_SAMPLE_ON_WAIT;
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if (lastCurrent <= tripValue) {
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else {
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sampleDelay = POWER_SAMPLE_ON_WAIT;
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if(power_good_counter<100)
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power_good_counter++;
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else
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if (power_sample_overload_wait>POWER_SAMPLE_OVERLOAD_WAIT) power_sample_overload_wait=POWER_SAMPLE_OVERLOAD_WAIT;
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} else {
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setPowerMode(POWERMODE::OVERLOAD);
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setPowerMode(POWERMODE::OVERLOAD);
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unsigned int mA=Hardware::getCurrentMilliamps(isMainTrack,lastCurrent);
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unsigned int mA=Hardware::getCurrentMilliamps(isMainTrack,lastCurrent);
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unsigned int maxmA=Hardware::getCurrentMilliamps(isMainTrack,tripValue);
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unsigned int maxmA=Hardware::getCurrentMilliamps(isMainTrack,tripValue);
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DIAG(F("\n*** %S TRACK POWER OVERLOAD current=%d max=%d ***\n"), isMainTrack ? F("MAIN") : F("PROG"), mA, maxmA);
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DIAG(F("\n*** %S TRACK POWER OVERLOAD current=%d max=%d offtime=%l ***\n"), isMainTrack ? F("MAIN") : F("PROG"), mA, maxmA, power_sample_overload_wait);
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sampleDelay = POWER_SAMPLE_OVERLOAD_WAIT;
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power_good_counter=0;
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sampleDelay = power_sample_overload_wait;
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power_sample_overload_wait *= 2;
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}
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}
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break;
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break;
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case POWERMODE::OVERLOAD:
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case POWERMODE::OVERLOAD:
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@ -22,7 +22,7 @@
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const int POWER_SAMPLE_ON_WAIT = 100;
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const int POWER_SAMPLE_ON_WAIT = 100;
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const int POWER_SAMPLE_OFF_WAIT = 1000;
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const int POWER_SAMPLE_OFF_WAIT = 1000;
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const int POWER_SAMPLE_OVERLOAD_WAIT = 4000;
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const int POWER_SAMPLE_OVERLOAD_WAIT = 20;
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const int MIN_ACK_PULSE_DURATION = 3000;
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const int MIN_ACK_PULSE_DURATION = 3000;
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const int MAX_ACK_PULSE_DURATION = 8500;
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const int MAX_ACK_PULSE_DURATION = 8500;
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@ -97,6 +97,8 @@ class DCCWaveform {
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unsigned int sampleDelay;
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unsigned int sampleDelay;
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int rawCurrentTripValue;
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int rawCurrentTripValue;
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static const int ACK_CURRENT_TRIP=1000; // During ACK processing limit can be higher
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static const int ACK_CURRENT_TRIP=1000; // During ACK processing limit can be higher
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unsigned long power_sample_overload_wait = POWER_SAMPLE_OVERLOAD_WAIT;
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unsigned int power_good_counter = 0;
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// ACK management (Prog track only)
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// ACK management (Prog track only)
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bool ackPending;
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bool ackPending;
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16
Hardware.cpp
16
Hardware.cpp
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@ -33,14 +33,18 @@
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void Hardware::init() {
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void Hardware::init() {
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pinMode(MAIN_POWER_PIN, OUTPUT);
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pinMode(MAIN_POWER_PIN, OUTPUT);
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pinMode(MAIN_BRAKE_PIN, OUTPUT);
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pinMode(MAIN_SIGNAL_PIN, OUTPUT);
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pinMode(MAIN_SIGNAL_PIN, OUTPUT);
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if (MAIN_SIGNAL_PIN_ALT) pinMode(MAIN_SIGNAL_PIN_ALT, OUTPUT);
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if (MAIN_SIGNAL_PIN_ALT != UNUSED_PIN) pinMode(MAIN_SIGNAL_PIN_ALT, OUTPUT);
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pinMode(MAIN_SENSE_PIN, INPUT);
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pinMode(MAIN_SENSE_PIN, INPUT);
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if (MAIN_FAULT_PIN != UNUSED_PIN) pinMode(MAIN_FAULT_PIN, INPUT);
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pinMode(PROG_POWER_PIN, OUTPUT);
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pinMode(PROG_POWER_PIN, OUTPUT);
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pinMode(PROG_BRAKE_PIN, OUTPUT);
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pinMode(PROG_SIGNAL_PIN, OUTPUT);
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pinMode(PROG_SIGNAL_PIN, OUTPUT);
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if (PROG_SIGNAL_PIN_ALT) pinMode(PROG_SIGNAL_PIN_ALT, OUTPUT);
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if (PROG_SIGNAL_PIN_ALT != UNUSED_PIN) pinMode(PROG_SIGNAL_PIN_ALT, OUTPUT);
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pinMode(PROG_SENSE_PIN, INPUT);
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pinMode(PROG_SENSE_PIN, INPUT);
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if (PROG_FAULT_PIN != UNUSED_PIN) pinMode(PROG_FAULT_PIN, INPUT);
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}
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}
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void Hardware::setPower(bool isMainTrack, bool on) {
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void Hardware::setPower(bool isMainTrack, bool on) {
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@ -54,10 +58,16 @@ void Hardware::setSignal(bool isMainTrack, bool high) {
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byte pin = isMainTrack ? MAIN_SIGNAL_PIN : PROG_SIGNAL_PIN;
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byte pin = isMainTrack ? MAIN_SIGNAL_PIN : PROG_SIGNAL_PIN;
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byte pin2 = isMainTrack ? MAIN_SIGNAL_PIN_ALT : PROG_SIGNAL_PIN_ALT;
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byte pin2 = isMainTrack ? MAIN_SIGNAL_PIN_ALT : PROG_SIGNAL_PIN_ALT;
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WritePin(pin, high ? HIGH : LOW);
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WritePin(pin, high ? HIGH : LOW);
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if (pin2) WritePin(pin2, high ? LOW : HIGH);
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if (pin2 != UNUSED_PIN) WritePin(pin2, high ? LOW : HIGH);
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}
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}
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int Hardware::getCurrentRaw(bool isMainTrack) {
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int Hardware::getCurrentRaw(bool isMainTrack) {
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// tooo much crap for a interrupt routine. Will see how that goes.
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byte faultpin = isMainTrack ? MAIN_FAULT_PIN : PROG_FAULT_PIN;
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byte signalpin = isMainTrack ? MAIN_SIGNAL_PIN : PROG_SIGNAL_PIN;
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if (faultpin != UNUSED_PIN && digitalRead(faultpin) == LOW && digitalRead(signalpin) == HIGH)
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return 32767; // MAXINT because we don't know the actual current, return as high as we can
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// IMPORTANT: This function can be called in Interrupt() time within the 56uS timer
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// IMPORTANT: This function can be called in Interrupt() time within the 56uS timer
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// The default analogRead takes ~100uS which is catastrphic
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// The default analogRead takes ~100uS which is catastrphic
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// so analogReadFast is used here. (-2uS)
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// so analogReadFast is used here. (-2uS)
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@ -51,6 +51,7 @@ void StringFormatter::send2(Print & stream,const __FlashStringHelper* format, va
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case 'E': printEscapes(stream,(const __FlashStringHelper*)va_arg(args, char*)); break;
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case 'E': printEscapes(stream,(const __FlashStringHelper*)va_arg(args, char*)); break;
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case 'S': stream.print((const __FlashStringHelper*)va_arg(args, char*)); break;
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case 'S': stream.print((const __FlashStringHelper*)va_arg(args, char*)); break;
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case 'd': stream.print(va_arg(args, int), DEC); break;
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case 'd': stream.print(va_arg(args, int), DEC); break;
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case 'l': stream.print(va_arg(args, long), DEC); break;
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case 'b': stream.print(va_arg(args, int), BIN); break;
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case 'b': stream.print(va_arg(args, int), BIN); break;
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case 'o': stream.print(va_arg(args, int), OCT); break;
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case 'o': stream.print(va_arg(args, int), OCT); break;
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case 'x': stream.print(va_arg(args, int), HEX); break;
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case 'x': stream.print(va_arg(args, int), HEX); break;
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