diff --git a/EXRAIL2.cpp b/EXRAIL2.cpp index dbbb038..1114364 100644 --- a/EXRAIL2.cpp +++ b/EXRAIL2.cpp @@ -64,6 +64,9 @@ const int16_t HASH_KEYWORD_RESUME=27609; const int16_t HASH_KEYWORD_KILL=5218; const int16_t HASH_KEYWORD_ALL=3457; const int16_t HASH_KEYWORD_ROUTES=-3702; +const int16_t HASH_KEYWORD_RED=26099; +const int16_t HASH_KEYWORD_AMBER=18713; +const int16_t HASH_KEYWORD_GREEN=31493; // One instance of RMFT clas is used for each "thread" in the automation. // Each thread manages a loco on a journey through the layout, and/or may manage a scenery automation. @@ -406,6 +409,18 @@ bool RMFT2::parseSlash(Print * stream, byte & paramCount, int16_t p[]) { case HASH_KEYWORD_UNLATCH: setFlag(p[1], 0, LATCH_FLAG); return true; + + case HASH_KEYWORD_RED: + doSignal(p[1],SIGNAL_RED); + return true; + + case HASH_KEYWORD_AMBER: + doSignal(p[1],SIGNAL_AMBER); + return true; + + case HASH_KEYWORD_GREEN: + doSignal(p[1],SIGNAL_GREEN); + return true; default: return false; @@ -517,6 +532,9 @@ bool RMFT2::skipIfBlock() { case OPCODE_IFRESERVE: case OPCODE_IFTHROWN: case OPCODE_IFTIMEOUT: + case OPCODE_IFRED: + case OPCODE_IFAMBER: + case OPCODE_IFGREEN: nest++; break; case OPCODE_ENDIF: @@ -553,6 +571,10 @@ void RMFT2::loop2() { byte opcode = GET_OPCODE; int16_t operand = GET_OPERAND(0); + + // skipIf will get set to indicate a failing IF condition + bool skipIf=false; + // if (diag) DIAG(F("RMFT2 %d %d"),opcode,operand); // Attention: Returning from this switch leaves the program counter unchanged. // This is used for unfinished waits for timers or sensors. @@ -639,7 +661,7 @@ void RMFT2::loop2() { return; case OPCODE_IFTIMEOUT: // do next operand if timeout flag set - if (!timeoutFlag) if (!skipIfBlock()) return; + skipIf=!timeoutFlag; break; case OPCODE_AFTER: // waits for sensor to hit and then remain off for 0.5 seconds. (must come after an AT operation) @@ -691,40 +713,52 @@ void RMFT2::loop2() { break; case OPCODE_IF: // do next operand if sensor set - if (!readSensor(operand)) if (!skipIfBlock()) return; + skipIf=!readSensor(operand); break; case OPCODE_ELSE: // skip to matching ENDIF - if (!skipIfBlock()) return; + skipIf=true; break; case OPCODE_IFGTE: // do next operand if sensor>= value - if (IODevice::readAnalogue(operand)<(int)(GET_OPERAND(1))) if (!skipIfBlock()) return; + skipIf=IODevice::readAnalogue(operand)<(int)(GET_OPERAND(1)); break; case OPCODE_IFLT: // do next operand if sensor< value - if (IODevice::readAnalogue(operand)>=(int)(GET_OPERAND(1))) if (!skipIfBlock()) return; + skipIf=IODevice::readAnalogue(operand)>=(int)(GET_OPERAND(1)); break; case OPCODE_IFNOT: // do next operand if sensor not set - if (readSensor(operand)) if (!skipIfBlock()) return; + skipIf=readSensor(operand); break; case OPCODE_IFRANDOM: // do block on random percentage - if ((int16_t)random(100)>=operand) if (!skipIfBlock()) return; + skipIf=(int16_t)random(100)>=operand; break; case OPCODE_IFRESERVE: // do block if we successfully RERSERVE if (!getFlag(operand,SECTION_FLAG)) setFlag(operand,SECTION_FLAG); - else if (!skipIfBlock()) return; + else skipIf=true; + break; + + case OPCODE_IFRED: // do block if signal as expected + skipIf=!isSignal(operand,SIGNAL_RED); + break; + + case OPCODE_IFAMBER: // do block if signal as expected + skipIf=!isSignal(operand,SIGNAL_AMBER); + break; + + case OPCODE_IFGREEN: // do block if signal as expected + skipIf=!isSignal(operand,SIGNAL_GREEN); break; case OPCODE_IFTHROWN: - if (Turnout::isClosed(operand)) if (!skipIfBlock()) return; + skipIf=Turnout::isClosed(operand); break; case OPCODE_IFCLOSED: - if (!Turnout::isClosed(operand)) if (!skipIfBlock()) return; + skipIf=Turnout::isThrown(operand); break; case OPCODE_ENDIF: @@ -747,15 +781,15 @@ void RMFT2::loop2() { break; case OPCODE_RED: - doSignal(operand,true,false,false); + doSignal(operand,SIGNAL_RED); break; case OPCODE_AMBER: - doSignal(operand,false,true,false); + doSignal(operand,SIGNAL_AMBER); break; case OPCODE_GREEN: - doSignal(operand,false,false,true); + doSignal(operand,SIGNAL_GREEN); break; case OPCODE_FON: @@ -924,6 +958,8 @@ void RMFT2::loop2() { kill(F("INVOP"),operand); } // Falling out of the switch means move on to the next opcode + // but if we are skipping a false IF or else + if (skipIf) if (!skipIfBlock()) return; SKIPOP; } @@ -951,51 +987,64 @@ void RMFT2::kill(const FSH * reason, int operand) { delete this; } -/* static */ void RMFT2::doSignal(VPIN id,bool red, bool amber, bool green) { - //if (diag) DIAG(F(" dosignal %d"),id); +int16_t RMFT2::getSignalSlot(VPIN id) { for (int sigpos=0;;sigpos+=4) { - //if (diag) DIAG(F("red=%d"),redpin); - VPIN sigid=GETFLASHW(RMFT2::SignalDefinitions+sigpos); - if (sigid==0) { // end of signal list - DIAG(F("EXRAIL Signal %d not defined"), id); - return; // signal not found - } - // sigid is the signal id used in RED/AMBER/GREEN macro - // for a LED signal it will be same as redpin - // but for a servo signal it will also have SERVO_SIGNAL_FLAG set. + VPIN sigid=GETFLASHW(RMFT2::SignalDefinitions+sigpos); + if (sigid==0) { // end of signal list + DIAG(F("EXRAIL Signal %d not defined"), id); + return -1; + } + // sigid is the signal id used in RED/AMBER/GREEN macro + // for a LED signal it will be same as redpin + // but for a servo signal it will also have SERVO_SIGNAL_FLAG set. - if ((sigid & ~SERVO_SIGNAL_FLAG & ~ACTIVE_HIGH_SIGNAL_FLAG)!= id) continue; // keep looking + if ((sigid & ~SERVO_SIGNAL_FLAG & ~ACTIVE_HIGH_SIGNAL_FLAG)!= id) continue; // keep looking + return sigpos/4; // relative slot in signals table + } +} +/* static */ void RMFT2::doSignal(VPIN id,char rag) { + //if (diag) DIAG(F(" dosignal %d %x"),id,rag); + int16_t sigslot=getSignalSlot(id); + if (sigslot<0) return; + + // keep track of signal state + setFlag(sigslot,rag,SIGNAL_MASK); + + // Correct signal definition found, get the rag values + int16_t sigpos=sigslot*4; + VPIN sigid=GETFLASHW(RMFT2::SignalDefinitions+sigpos); + VPIN redpin=GETFLASHW(RMFT2::SignalDefinitions+sigpos+1); + VPIN amberpin=GETFLASHW(RMFT2::SignalDefinitions+sigpos+2); + VPIN greenpin=GETFLASHW(RMFT2::SignalDefinitions+sigpos+3); + //if (diag) DIAG(F("signal %d %d %d"),redpin,amberpin,greenpin); - // Correct signal definition found, get the rag values - VPIN redpin=GETFLASHW(RMFT2::SignalDefinitions+sigpos+1); - VPIN amberpin=GETFLASHW(RMFT2::SignalDefinitions+sigpos+2); - VPIN greenpin=GETFLASHW(RMFT2::SignalDefinitions+sigpos+3); - //if (diag) DIAG(F("signal %d %d %d"),redpin,amberpin,greenpin); - - if (sigid & SERVO_SIGNAL_FLAG) { - // A servo signal, the pin numbers are actually servo positions - // Note, setting a signal to a zero position has no effect. - int16_t servopos= red? redpin: (green? greenpin : amberpin); - if (servopos!=0) IODevice::writeAnalogue(id,servopos,PCA9685::Bounce); - return; - } - - // LED or similar 3 pin signal - // If amberpin is zero, synthesise amber from red+green - if (amber && (amberpin==0)) { - red=true; - green=true; - } - - // Manage invert (HIGH on) pins - bool aHigh=sigid & ACTIVE_HIGH_SIGNAL_FLAG; - - // set the three pins - if (redpin) IODevice::write(redpin,red^aHigh); - if (amberpin) IODevice::write(amberpin,amber^aHigh); - if (greenpin) IODevice::write(greenpin,green^aHigh); - return; + if (sigid & SERVO_SIGNAL_FLAG) { + // A servo signal, the pin numbers are actually servo positions + // Note, setting a signal to a zero position has no effect. + int16_t servopos= rag==SIGNAL_RED? redpin: (rag==SIGNAL_GREEN? greenpin : amberpin); + if (servopos!=0) IODevice::writeAnalogue(id,servopos,PCA9685::Bounce); + return; } + + // LED or similar 3 pin signal + // If amberpin is zero, synthesise amber from red+green + const byte SIMAMBER=0x00; + if (rag==SIGNAL_AMBER && (amberpin==0)) rag=SIMAMBER; // special case this func only + + // Manage invert (HIGH on) pins + bool aHigh=sigid & ACTIVE_HIGH_SIGNAL_FLAG; + + // set the three pins + if (redpin) IODevice::write(redpin,(rag==SIGNAL_RED || rag==SIMAMBER)^aHigh); + if (amberpin) IODevice::write(amberpin,(rag==SIGNAL_AMBER)^aHigh); + if (greenpin) IODevice::write(greenpin,(rag==SIGNAL_GREEN || rag==SIMAMBER)^aHigh); + return; +} + +/* static */ bool RMFT2::isSignal(VPIN id,char rag) { + int16_t sigslot=getSignalSlot(id); + if (sigslot<0) return false; + return (flags[sigslot] & SIGNAL_MASK) == rag; } void RMFT2::turnoutEvent(int16_t turnoutId, bool closed) { diff --git a/EXRAIL2.h b/EXRAIL2.h index 616b05d..e881e3b 100644 --- a/EXRAIL2.h +++ b/EXRAIL2.h @@ -51,6 +51,7 @@ enum OPCODE : byte {OPCODE_THROW,OPCODE_CLOSE, OPCODE_PRINT,OPCODE_DCCACTIVATE, OPCODE_ONACTIVATE,OPCODE_ONDEACTIVATE,OPCODE_IFGTE,OPCODE_IFLT, OPCODE_ROSTER,OPCODE_KILLALL, + OPCODE_IFRED,OPCODE_IFAMBER,OPCODE_IFGREEN, OPCODE_ROUTE,OPCODE_AUTOMATION,OPCODE_SEQUENCE,OPCODE_ENDTASK,OPCODE_ENDEXRAIL }; @@ -58,10 +59,13 @@ enum OPCODE : byte {OPCODE_THROW,OPCODE_CLOSE, // Flag bits for status of hardware and TPL static const byte SECTION_FLAG = 0x80; - static const byte LATCH_FLAG = 0x40; - static const byte TASK_FLAG = 0x20; - static const byte SPARE_FLAG = 0x10; - static const byte COUNTER_MASK= 0x0F; + static const byte LATCH_FLAG = 0x40; + static const byte TASK_FLAG = 0x20; + static const byte SPARE_FLAG = 0x10; + static const byte SIGNAL_MASK = 0x0C; + static const byte SIGNAL_RED = 0x08; + static const byte SIGNAL_AMBER = 0x0C; + static const byte SIGNAL_GREEN = 0x04; static const byte MAX_STACK_DEPTH=4; @@ -112,7 +116,9 @@ private: static void setFlag(VPIN id,byte onMask, byte OffMask=0); static bool getFlag(VPIN id,byte mask); static int16_t progtrackLocoId; - static void doSignal(VPIN id,bool red, bool amber, bool green); + static void doSignal(VPIN id,char rag); + static bool isSignal(VPIN id,char rag); + static int16_t getSignalSlot(VPIN id); static void setTurnoutHiddenState(Turnout * t); static RMFT2 * loopTask; static RMFT2 * pausingTask; diff --git a/EXRAIL2MacroReset.h b/EXRAIL2MacroReset.h index edbfd6d..dde5ea2 100644 --- a/EXRAIL2MacroReset.h +++ b/EXRAIL2MacroReset.h @@ -59,11 +59,14 @@ #undef FWD #undef GREEN #undef IF +#undef IFAMBER #undef IFCLOSED +#undef IFGREEN #undef IFGTE #undef IFLT #undef IFNOT #undef IFRANDOM +#undef IFRED #undef IFRESERVE #undef IFTHROWN #undef IFTIMEOUT @@ -158,11 +161,14 @@ #define FWD(speed) #define GREEN(signal_id) #define IF(sensor_id) +#define IFAMBER(signal_id) #define IFCLOSED(turnout_id) +#define IFGREEN(signal_id) #define IFGTE(sensor_id,value) #define IFLT(sensor_id,value) #define IFNOT(sensor_id) #define IFRANDOM(percent) +#define IFRED(signal_id) #define IFTHROWN(turnout_id) #define IFRESERVE(block) #define IFTIMEOUT diff --git a/EXRAILMacros.h b/EXRAILMacros.h index 8cdbf41..eb56794 100644 --- a/EXRAILMacros.h +++ b/EXRAILMacros.h @@ -235,11 +235,14 @@ const FLASH int16_t RMFT2::SignalDefinitions[] = { #define FWD(speed) OPCODE_FWD,V(speed), #define GREEN(signal_id) OPCODE_GREEN,V(signal_id), #define IF(sensor_id) OPCODE_IF,V(sensor_id), +#define IFAMBER(signal_id) OPCODE_IFAMBER,V(signal_id), #define IFCLOSED(turnout_id) OPCODE_IFCLOSED,V(turnout_id), +#define IFGREEN(signal_id) OPCODE_IFGREEN,V(signal_id), #define IFGTE(sensor_id,value) OPCODE_IFGTE,V(sensor_id),OPCODE_PAD,V(value), #define IFLT(sensor_id,value) OPCODE_IFLT,V(sensor_id),OPCODE_PAD,V(value), #define IFNOT(sensor_id) OPCODE_IFNOT,V(sensor_id), #define IFRANDOM(percent) OPCODE_IFRANDOM,V(percent), +#define IFRED(signal_id) OPCODE_IFRED,V(signal_id), #define IFRESERVE(block) OPCODE_IFRESERVE,V(block), #define IFTHROWN(turnout_id) OPCODE_IFTHROWN,V(turnout_id), #define IFTIMEOUT OPCODE_IFTIMEOUT,0,0,