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Command.ino
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Command.ino
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// -----------------------------------------------------------------------------------
// Command processing
// last RA/Dec time
unsigned long _coord_t=0;
// help with commands
enum Command {COMMAND_NONE, COMMAND_SERIAL_A, COMMAND_SERIAL_B, COMMAND_SERIAL_C, COMMAND_SERIAL_D, COMMAND_SERIAL_E, COMMAND_SERIAL_ST4, COMMAND_SERIAL_X};
cb cmdA; // the first Serial is always enabled
#ifdef HAL_SERIAL_B_ENABLED
cb cmdB;
#endif
#ifdef HAL_SERIAL_C_ENABLED
cb cmdC;
#endif
#ifdef HAL_SERIAL_D_ENABLED
cb cmdD;
#endif
#ifdef HAL_SERIAL_E_ENABLED
cb cmdE;
#endif
#if ST4_HAND_CONTROL == ON && ST4_INTERFACE != OFF
cb cmdST4;
#endif
char _replyX[50]=""; cb cmdX; // virtual command channel for internal use
// process commands
void processCommands() {
// scratch-pad variables
double f,f1;
int i,i1,i2;
byte b;
// last RA/Dec
static double _dec,_ra;
// command processing
static char reply[50];
static char command[3];
static char parameter[45];
static bool boolReply = true;
bool supress_frame = false;
char *conv_end;
#if FOCUSER1 == ON
static char primaryFocuser = 'F';
static char secondaryFocuser = 'f';
#endif
// accumulate the command
if (SerialA.available() > 0 && !cmdA.ready()) cmdA.add(SerialA.read());
#ifdef HAL_SERIAL_B_ENABLED
if (SerialB.available() > 0 && !cmdB.ready()) cmdB.add(SerialB.read());
#endif
#ifdef HAL_SERIAL_C_ENABLED
if (SerialC.available() > 0 && !cmdC.ready()) cmdC.add(SerialC.read());
#endif
#ifdef HAL_SERIAL_D_ENABLED
if (SerialD.available() > 0 && !cmdD.ready()) cmdD.add(SerialD.read());
#endif
#ifdef HAL_SERIAL_E_ENABLED
if (SerialE.available() > 0 && !cmdE.ready()) cmdE.add(SerialE.read());
#endif
#if ST4_HAND_CONTROL == ON && ST4_INTERFACE != OFF
if (SerialST4.available() > 0 && !cmdST4.ready()) cmdST4.add(SerialST4.read());
#endif
// send any reply
#ifdef HAL_SERIAL_TRANSMIT
if (SerialA.transmit()) return;
#ifdef HAL_SERIAL_B_ENABLED
if (SerialB.transmit()) return;
#endif
#ifdef HAL_SERIAL_C_ENABLED
if (SerialC.transmit()) return;
#endif
#ifdef HAL_SERIAL_D_ENABLED
if (SerialD.transmit()) return;
#endif
#endif
// if a command is ready, process it
Command process_command = COMMAND_NONE;
if (cmdA.ready()) { strcpy(command,cmdA.getCmd()); strcpy(parameter,cmdA.getParameter()); cmdA.flush(); process_command=COMMAND_SERIAL_A; }
#ifdef HAL_SERIAL_B_ENABLED
else if (cmdB.ready()) { strcpy(command,cmdB.getCmd()); strcpy(parameter,cmdB.getParameter()); cmdB.flush(); process_command=COMMAND_SERIAL_B; }
#endif
#ifdef HAL_SERIAL_C_ENABLED
else if (cmdC.ready()) { strcpy(command,cmdC.getCmd()); strcpy(parameter,cmdC.getParameter()); cmdC.flush(); process_command=COMMAND_SERIAL_C; }
#endif
#ifdef HAL_SERIAL_D_ENABLED
else if (cmdD.ready()) { strcpy(command,cmdD.getCmd()); strcpy(parameter,cmdD.getParameter()); cmdD.flush(); process_command=COMMAND_SERIAL_D; }
#endif
#ifdef HAL_SERIAL_E_ENABLED
else if (cmdE.ready()) { strcpy(command,cmdE.getCmd()); strcpy(parameter,cmdE.getParameter()); cmdE.flush(); process_command=COMMAND_SERIAL_E; }
#endif
#if ST4_HAND_CONTROL == ON && ST4_INTERFACE != OFF
else if (cmdST4.ready()) { strcpy(command,cmdST4.getCmd()); strcpy(parameter,cmdST4.getParameter()); cmdST4.flush(); process_command=COMMAND_SERIAL_ST4; }
#endif
else if (cmdX.ready()) { strcpy(command,cmdX.getCmd()); strcpy(parameter,cmdX.getParameter()); cmdX.flush(); process_command=COMMAND_SERIAL_X; }
else return;
if (process_command) {
// Command is two chars followed by an optional parameter...
commandError=CE_NONE;
// Handles empty and one char replies
reply[0]=0; reply[1]=0;
// (char)6 - Special
if (command[0] == (char)6) {
if (command[1] == '0') {
reply[0]=command[1]; strcpy(reply,"CK_FAIL"); // last cmd checksum failed
} else {
reply[0]=command[1]; reply[1]=0; // Equatorial or Horizon mode, A or P
supress_frame=true;
}
boolReply=false;
} else
// A - Alignment Commands
if (command[0] == 'A') {
// :AW# Align Write to EEPROM
// Returns: 1 on success
if (command[1] == 'W' && parameter[0] == 0) {
saveAlignModel();
} else
// :A?# Align status
// Returns: mno#
// where m is the maximum number of alignment stars
// n is the current alignment star (0 otherwise)
// o is the last required alignment star when an alignment is in progress (0 otherwise)
if (command[1] == '?' && parameter[0] == 0) {
reply[0]=MAX_NUM_ALIGN_STARS;
reply[1]='0'+alignThisStar;
reply[2]='0'+alignNumStars;
reply[3]=0;
boolReply=false;
} else
// :A[n]# Start Telescope Manual Alignment Sequence
// This is to initiate a n-star alignment for 1..MAX_NUM_ALIGN_STARS:
// 1) Before calling this function, the telescope should be in the polar-home position
// 2) Call this function with the # of align stars you'd like to use
// 3) Set the target location (RA/Dec) to a bright star, etc. (not too near the NCP/SCP)
// 4) Issue a goto command
// 5) Center the star/object using the guide commands (as needed)
// 6) Call :A+# command to accept the correction
// ( for two+ star alignment )
// 7) Back to #3 above until done, except where possible choose at least one star on both meridian sides
// Return: 0 on failure
// 1 on success
if (command[1] >= '1' && command[1] <= MAX_NUM_ALIGN_STARS && parameter[0] == 0) {
// set current time and date before calling this routine
// telescope should be set in the polar home (CWD) for a starting point
// this command sets indexAxis1, indexAxis2, azmCor=0; altCor=0;
setHome();
// start tracking
trackingState=TrackingSidereal;
enableStepperDrivers();
// start align...
alignNumStars=command[1]-'0';
alignThisStar=1;
} else
// :A+# Align accept target location
// Return: 0 on failure
// 1 on success
if (command[1] == '+' && parameter[0] == 0) {
if (alignActive()) {
CommandErrors e=alignStar();
if (e != CE_NONE) { alignNumStars=0; alignThisStar=0; commandError=e; }
} else commandError=CE_ALIGN_NOT_ACTIVE;
} else commandError=CE_CMD_UNKNOWN;
}
else
// $ - Set parameter
// :$BD[n]# Set Dec/Alt backlash in arc-seconds
// Return: 0 on failure
// 1 on success
// :$BR[n]# Set RA/Azm backlash in arc-seconds
// Return: 0 on failure
// 1 on success
// Set the Backlash values. Units are arc-seconds
if (command[0] == '$' && command[1] == 'B') {
if (atoi2((char*)¶meter[1],&i)) {
if (i >= 0 && i <= 3600) {
if (parameter[0] == 'D') {
reactivateBacklashComp();
cli(); backlashAxis2=(int)round(((double)i*axis2Settings.stepsPerMeasure)/3600.0); sei();
nv.writeInt(EE_backlashAxis2,backlashAxis2);
} else
if (parameter[0] == 'R') {
reactivateBacklashComp();
cli(); backlashAxis1 =(int)round(((double)i*axis1Settings.stepsPerMeasure)/3600.0); sei();
nv.writeInt(EE_backlashAxis1,backlashAxis1);
} else commandError=CE_CMD_UNKNOWN;
} else commandError=CE_PARAM_RANGE;
} else commandError=CE_PARAM_FORM;
} else
// % - Return parameter
// :%BD# Get Dec/Alt Antibacklash value in arc-seconds
// Return: n#
// :%BR# Get RA/Azm Antibacklash value in arc-seconds
// Return: n#
if (command[0] == '%' && command[1] == 'B') {
if (parameter[0] == 'D' && parameter[1] == 0) {
reactivateBacklashComp();
i=(int)round(((double)backlashAxis2*3600.0)/axis2Settings.stepsPerMeasure);
if (i < 0) i=0; if (i > 3600) i=3600;
sprintf(reply,"%d",i);
boolReply=false;
} else
if (parameter[0] == 'R' && parameter[1] == 0) {
reactivateBacklashComp();
i=(int)round(((double)backlashAxis1*3600.0)/axis1Settings.stepsPerMeasure);
if (i < 0) i=0; if (i > 3600) i=3600;
sprintf(reply,"%d",i);
boolReply=false;
} else commandError=CE_CMD_UNKNOWN;
} else
// B - Reticule/Accessory Control
// :B+# Increase reticule Brightness
// Returns: Nothing
// :B-# Decrease Reticule Brightness
// Returns: Nothing
if (command[0] == 'B' && (command[1] == '+' || command[1] == '-') && parameter[0] == 0) {
#if LED_RETICLE >= 0
int scale;
if (reticuleBrightness > 255-8) scale=1; else
if (reticuleBrightness > 255-32) scale=4; else
if (reticuleBrightness > 255-64) scale=12; else
if (reticuleBrightness > 255-128) scale=32; else scale=64;
if (command[1] == '-') reticuleBrightness+=scale; if (reticuleBrightness > 255) reticuleBrightness=255;
if (command[1] == '+') reticuleBrightness-=scale; if (reticuleBrightness < 0) reticuleBrightness=0;
analogWrite(ReticlePin,reticuleBrightness);
#endif
boolReply=false;
} else
// C - Sync Control
// :CS# Synchonize the telescope with the current right ascension and declination coordinates
// Returns: Nothing (Sync's fail silently)
// :CM# Synchonize the telescope with the current database object (as above)
// Returns: "N/A#" on success, "En#" on failure where n is the error code per the :MS# command
if (command[0] == 'C' && (command[1] == 'S' || command[1] == 'M') && parameter[0] == 0) {
if (parkStatus == NotParked && trackingState != TrackingMoveTo) {
newTargetRA=origTargetRA; newTargetDec=origTargetDec;
#if TELESCOPE_COORDINATES == TOPOCENTRIC
topocentricToObservedPlace(&newTargetRA,&newTargetDec);
#endif
CommandErrors e;
if (alignActive()) {
e=alignStar();
if (e != CE_NONE) { alignNumStars=0; alignThisStar=0; commandError=e; }
} else {
e=syncEqu(newTargetRA,newTargetDec);
}
if (command[1] == 'M') {
if (e >= CE_GOTO_ERR_BELOW_HORIZON && e <= CE_GOTO_ERR_UNSPECIFIED) { reply[0]='E'; reply[1]=(char)(e-CE_GOTO_ERR_BELOW_HORIZON)+'1'; reply[2]=0; }
if (e == CE_NONE) strcpy(reply,"N/A");
}
boolReply=false;
}
} else
// D - Distance Bars
// :D# Return: "\0x7f#" if the mount is moving, otherwise "#".
if (command[0] == 'D' && command[1] == 0) { if (trackingState == TrackingMoveTo) { reply[0]=(char)127; reply[1]=0; } else { reply[0]='#'; reply[1]=0; supress_frame=true; } boolReply=false; } else
// E - Enter special mode
if (command[0] == 'E') {
// :EC[s]# Echo string [c] on DebugSer.
// Return: Nothing
if (command[1] == 'C') {
// spaces are encoded as '_'
for (unsigned int i=0; i < strlen(parameter); i++) if (parameter[i]=='_') parameter[i]=' ';
// a newline is encoded as '&' in the last char of message
int l=strlen(parameter);
if (l > 0 && parameter[l-1] == '&') { parameter[l-1]=0; DL(parameter); } else D(parameter);
boolReply=false;
} else
// :ENVRESET# Wipe flash. OnStep must be at home and tracking turned off for this command to work.
if (command[1] == 'N' && parameter[0] == 'V' && parameter[1] == 'R' && parameter[2] == 'E' && parameter[3] == 'S' && parameter[4] == 'E' && parameter[5] == 'T' && parameter[6] == 0) {
if (atHome || parkStatus == Parked) {
nv.writeLong(EE_autoInitKey,0);
strcpy(reply,"NV will be wiped on next boot.");
boolReply=false;
} else commandError=CE_NOT_PARKED_OR_AT_HOME; } else
#if SERIAL_B_ESP_FLASHING == ON
// :ESPFLASH# ESP8266 device flash mode. OnStep must be at home and tracking turned off for this command to work.
// Return: 1 on completion (after up to one minute from start of command.)
if (command[1] == 'S' && parameter[0] == 'P' && parameter[1] == 'F' && parameter[2] == 'L' && parameter[3] == 'A' && parameter[4] == 'S' && parameter[5] == 'H' && parameter[6] == 0) {
if (atHome || parkStatus == Parked) {
SerialA.println("The ESP8266 will now be placed in flash upload mode (at 115200 Baud.)");
SerialA.println("Arduino's 'Tools -> Upload Speed' should be set to 115200 Baud.");
SerialA.println("Waiting for data, you have one minute to start the upload.");
delay(1000);
fa.go(false); // flash the addon
SerialA.println("ESP8266 reset and in run mode, resuming OnStep operation...");
delay(1000);
} else commandError=CE_NOT_PARKED_OR_AT_HOME;
} else
#endif
commandError=CE_CMD_UNKNOWN;
} else
// :FA# Active?
// Return: 0 on failure
// 1 on success
if (command[0] == 'F' && command[1] == 'A' && parameter[0] == 0) {
#if FOCUSER1 != ON
commandError=CE_0;
#endif
} else
// :fA# Active?
// Return: 0 on failure
// 1 on success
if (command[0] == 'f' && command[1] == 'A' && parameter[0] == 0) {
#if FOCUSER2 != ON
commandError=CE_0;
#endif
} else
// F,f - Focuser1 and Focuser2 Commands
#if FOCUSER1 == ON
if (command[0] == 'F' || command[0]=='f') {
focuser *foc = NULL;
if (command[0] == primaryFocuser) foc = &foc1;
#if FOCUSER2 == ON
else if (command[0] == secondaryFocuser) foc = &foc2;
#endif
// check that we have a focuser selected and for commands that shouldn't have a parameter
if (foc != NULL && !(strchr("TpIMtuQF1234+-GZHh",command[1]) && parameter[0] != 0)) {
// get ready for commands that convert to microns or steps (these commands are upper-case for microns OR lower-case for steps)
double spm = foc->getStepsPerMicro(); if (strchr("bdgimrs",command[1])) spm = 1.0;
// :FA[n]# Select primary focuser where [n] = 1 or 2
// Return: 0 on failure
// 1 on success
if (command[1] == 'A') {
if (parameter[0] == '1' && parameter[1] == 0) { primaryFocuser=toupper(secondaryFocuser); secondaryFocuser=tolower(primaryFocuser); }
#if FOCUSER2 == ON
else if (parameter[0] == '2' && parameter[1] == 0) { primaryFocuser=tolower(secondaryFocuser); secondaryFocuser=toupper(primaryFocuser); }
#endif
else commandError=CE_PARAM_RANGE;
} else
// :Fa# Get primary focuser
// Returns: 1 if primary focuser is focuser 1, 0 otherwise
if (command[1] == 'a') { if (primaryFocuser != 'F') commandError=CE_0; } else
// :FT# Get status
// Returns: M# (for moving) or S# (for stopped)
if (command[1] == 'T') { if (foc->moving()) strcpy(reply,"M"); else strcpy(reply,"S"); boolReply=false; } else
// :Fp# Get mode
// Return: 0 for absolute
// 1 for pseudo absolute
if (command[1] == 'p') { if (!foc->isDcFocuser()) commandError=CE_0; } else
// :FI# Get full in position (in microns or steps)
// Returns: n#
if (toupper(command[1]) == 'I') { sprintf(reply,"%ld",(long)round(foc->getMin()/spm)); boolReply=false; } else
// :FM# Get max position (in microns or steps)
// Returns: n#
if (toupper(command[1]) == 'M') { sprintf(reply,"%ld",(long)round(foc->getMax()/spm)); boolReply=false; } else
// :Fe# Get focuser temperature differential
// Returns: n# temperature in deg. C
if (command[1] == 'e') { if (foc->getTcfEnable()) dtostrf(ambient.getTelescopeTemperature()-foc->getTcfT0(),3,1,reply); else dtostrf(0.0,3,1,reply); boolReply=false; } else
// :Ft# Get focuser temperature
// Returns: n# temperature in deg. C
if (command[1] == 't') { dtostrf(ambient.getTelescopeTemperature(),3,1,reply); boolReply=false; } else
// :Fu# Get focuser microns per step
// Returns: n.n#
if (command[1] == 'u') { dtostrf(1.0/foc->getStepsPerMicro(),7,5,reply); boolReply=false; } else
// :FB# Get focuser backlash amount (in steps or microns)
// Return: n#
if (toupper(command[1]) == 'B' && parameter[0] == 0) { sprintf(reply,"%ld",(long)round(foc->getBacklash()/spm)); boolReply=false; } else
// :FB[n]# Set focuser backlash amount (in steps or microns)
// Return: 0 on failure
// 1 on success
if (toupper(command[1]) == 'B') { long l = atol(parameter)*spm; if (!foc->setBacklash(l)) commandError=CE_PARAM_RANGE; } else
// :FC# Get focuser temperature compensation coefficient
// Return: n.n#
if (command[1] == 'C' && parameter[0] == 0) { dtostrf(foc->getTcfCoef(),7,5,reply); boolReply=false; } else
// :FC[sn.n]# Set focuser temperature compensation coefficient in um per deg. C (+ moves out as temperature falls)
// Return: 0 on failure
// 1 on success
if (command[1] == 'C') { f = atof(parameter); if (!foc->setTcfCoef(f)) commandError=CE_PARAM_RANGE; } else
// :Fc# Get focuser temperature compensation enable status
// Return: 0 if disabled
// 1 if enabled
if (command[1] == 'c' && parameter[0] == 0) { if (!foc->getTcfEnable()) commandError=CE_0; } else
// :Fc[n]# Enable/disable focuser temperature compensation where [n] = 0 or 1
// Return: 0 on failure
// 1 on success
if (command[1] == 'c' && parameter[1] == 0) { foc->setTcfEnable(parameter[0] != '0'); } else
// :FD# Get focuser temperature compensation deadband amount (in steps or microns)
// Return: n#
if (toupper(command[1]) == 'D' && parameter[0] == 0) { sprintf(reply,"%ld",(long)round(foc->getTcfDeadband()/spm)); boolReply=false; } else
// :FD[n]# Set focuser temperature compensation deadband amount (in steps or microns)
// Return: 0 on failure
// 1 on success
if (toupper(command[1]) == 'D') { long l = atol(parameter)*spm; if (!foc->setTcfDeadband(l)) commandError=CE_PARAM_RANGE; } else
// :FP# Get focuser DC Motor Power Level (in %)
// Returns: n#
// :FP[n]# Set focuser DC Motor Power Level (in %)
// Return: 0 on failure
// 1 on success
if (command[1] == 'P') {
if (foc->isDcFocuser()) {
if (parameter[0] == 0) {
sprintf(reply,"%d",(int)foc->getDcPower()); boolReply=false;
} else {
i=atol(parameter);
if (!foc->setDcPower(i)) commandError=CE_PARAM_RANGE;
}
} else commandError=CE_CMD_UNKNOWN;
} else
// :FQ# Stop the focuser
// Returns: Nothing
if (command[1] == 'Q') { foc->stopMove(); boolReply=false; } else
// :FF# Set focuser for fast motion (1mm/s)
// Returns: Nothing
if (command[1] == 'F') { foc->setMoveRate(1000); boolReply=false; } else
// :FS# Set focuser for slow motion (0.01mm/s)
// Returns: Nothing
if (command[1] == 'S' && parameter[0] == 0) { foc->setMoveRate(10); boolReply=false; } else
// :F[n]# Set focuser move rate, where n = 1 for finest, 2 for 0.01mm/second, 3 for 0.1mm/second, 4 for 1mm/second
// Returns: Nothing
if (command[1] >= '1' && command[1] <= '4') { int p[] = {1,10,100,1000}; foc->setMoveRate(p[command[1] - '1']); boolReply=false; } else
// :F+# Move focuser in (toward objective)
// Returns: Nothing
if (command[1] == '+') { foc->startMoveIn(); boolReply=false; } else
// :F-# Move focuser out (away from objective)
// Returns: Nothing
if (command[1] == '-') { foc->startMoveOut(); boolReply=false; } else
// :FG# Get focuser current position (in microns or steps)
// Returns: sn#
if (toupper(command[1]) == 'G') { sprintf(reply,"%ld",(long)round(foc->getPosition()/spm)); boolReply=false; } else
// :FR[sn]# Set focuser target position relative (in microns or steps)
// Returns: Nothing
if (toupper(command[1]) == 'R') { foc->relativeTarget((double)atol(parameter)*spm); boolReply=false; } else
// :FS[n]# Set focuser target position (in microns or steps)
// Return: 0 on failure
// 1 on success
if (toupper(command[1]) == 'S') { if (!foc->setTarget((double)atol(parameter)*spm)) commandError=CE_SLEW_ERR_IN_STANDBY; } else
// :FZ# Set focuser position as zero
// Returns: Nothing
if (command[1] == 'Z') { foc->setPosition(0); boolReply=false; } else
// :FH# Set focuser position as half-travel
// Returns: Nothing
if (command[1] == 'H') { foc->setPosition((foc->getMax()+foc->getMin())/2.0); boolReply=false; } else
// :Fh# Set focuser target position at half-travel
// Returns: Nothing
if (command[1] == 'h') { foc->setTarget((foc->getMax()+foc->getMin())/2.0); boolReply=false; } else commandError=CE_CMD_UNKNOWN;
} else commandError=CE_CMD_UNKNOWN;
} else
#endif
// G - Get Telescope Information
if (command[0] == 'G') {
// :GA# Get Telescope Altitude
// Returns: sDD*MM# or sDD*MM'SS# (based on precision setting)
// The current scope altitude
if (command[1] == 'A' && parameter[0] == 0) { getHor(&f,&f1); doubleToDms(reply,&f,false,true,precision); boolReply=false; } else
// :GB# Get Fastest Recommended Baud rate
// Returns: n
// The baud rate code
if (command[1] == 'B' && parameter[0] == 0) {
#ifdef HAL_SLOW_PROCESSOR
strcpy(reply,"4");
#else
strcpy(reply,"0");
#endif
boolReply=false;
supress_frame=true;
} else
// :Ga# Get Local Time in 12 hour format
// Returns: HH:MM:SS#
if (command[1] == 'a' && parameter[0] == 0) { LMT=timeRange(UT1-timeZone); if (LMT > 12.0) LMT-=12.0; doubleToHms(reply,&LMT,PM_HIGH); boolReply=false; } else
// :GC# Get the current local calendar date
// Returns: MM/DD/YY#
if (command[1] == 'C' && parameter[0] == 0) {
LMT=UT1-timeZone;
// correct for day moving forward/backward... this works for multipule days of up-time
double J=JD;
int y,m,d;
while (LMT >= 24.0) { LMT=LMT-24.0; J=J-1.0; }
if (LMT<0.0) { LMT=LMT+24.0; J=J+1.0; }
greg(J,&y,&m,&d); y-=2000; if (y >= 100) y-=100;
sprintf(reply,"%02d/%02d/%02d",m,d,y);
boolReply=false;
} else
// :Gc# Get the current local time format
// Returns: 24#
if (command[1] == 'c' && parameter[0] == 0) {
strcpy(reply,"24");
boolReply=false;
} else
// :GD# Get Telescope Declination
// Returns: sDD*MM# or sDD*MM:SS# (based on precision setting)
// :GDH# Get Telescope Declination
// Returns: sDD*MM:SS.SSSS# (high precision)
if (command[1] == 'D') {
#ifdef HAL_SLOW_PROCESSOR
if ((long)(millis()-_coord_t) > 500)
#else
if ((long)(millis()-_coord_t) > 50)
#endif
{
getEqu(&f,&f1,false);
#if TELESCOPE_COORDINATES == TOPOCENTRIC
observedPlaceToTopocentric(&f,&f1);
#endif
_ra=f/15.0; _dec=f1; _coord_t=millis();
}
if (parameter[0] == 0) {
doubleToDms(reply,&_dec,false,true,precision); boolReply=false;
} else
if ((parameter[0] == 'e' || parameter[0] == 'H') && parameter[1] == 0) {
doubleToDms(reply,&_dec,false,true,PM_HIGHEST); boolReply=false;
} else commandError=CE_CMD_UNKNOWN;
} else
// :Gd# Get Currently Selected Target Declination
// Returns: sDD*MM# or sDD*MM:SS# (based on precision setting)
// :GdH# Get Currently Selected Target Declination
// Returns: sDD*MM:SS.SSS# (high precision)
if (command[1] == 'd') {
if (parameter[0] == 0) {
doubleToDms(reply,&origTargetDec,false,true,precision); boolReply=false;
} else
if ((parameter[0] == 'e' || parameter[0] == 'H') && parameter[1] == 0) {
doubleToDms(reply,&origTargetDec,false,true,PM_HIGHEST); boolReply=false;
} else commandError=CE_CMD_UNKNOWN;
} else
// :GE# Get last command error numeric code
// Returns: CC#
if (command[1] == 'E' && parameter[0] == 0) {
CommandErrors e=CE_REPLY_UNKNOWN;
if (process_command == COMMAND_SERIAL_A) e=cmdA.lastError; else
#ifdef HAL_SERIAL_B_ENABLED
if (process_command == COMMAND_SERIAL_B) e=cmdB.lastError; else
#endif
#ifdef HAL_SERIAL_C_ENABLED
if (process_command == COMMAND_SERIAL_C) e=cmdC.lastError; else
#endif
#ifdef HAL_SERIAL_D_ENABLED
if (process_command == COMMAND_SERIAL_D) e=cmdD.lastError; else
#endif
#ifdef HAL_SERIAL_E_ENABLED
if (process_command == COMMAND_SERIAL_E) e=cmdE.lastError; else
#endif
#if ST4_HAND_CONTROL == ON && ST4_INTERFACE != OFF
if (process_command == COMMAND_SERIAL_ST4) e=cmdST4.lastError; else
#endif
if (process_command == COMMAND_SERIAL_X) e=cmdX.lastError;
sprintf(reply,"%02d",e);
commandError=CE_NULL;
boolReply=false;
} else
// :GG# Get UTC offset time, the number of decimal hours to add to local time to convert to UTC
// Returns: sHH#
if (command[1] == 'G' && parameter[0] == 0) {
timeZoneToHM(reply,timeZone);
boolReply=false;
} else
// :Gg# Get Current Site Longitude, east is negative
// Returns: sDDD*MM#
// :GgH# Get current site Longitude
// Returns: sDD*MM:SS.SSS# (high precision)
if (command[1] == 'g') {
if (parameter[0] == 0) {
doubleToDms(reply,&longitude,true,true,PM_LOW); boolReply=false;
} else
if (parameter[0] == 'H' && parameter[1] == 0) {
doubleToDms(reply,&longitude,true,true,PM_HIGHEST); boolReply=false;
} else commandError=CE_CMD_UNKNOWN;
} else
// :Gh# Get Horizon Limit, the minimum elevation of the mount relative to the horizon
// Returns: sDD*#
if (command[1] == 'h' && parameter[0] == 0) { sprintf(reply,"%+02d*",minAlt); boolReply=false; } else
// :GL# Get Local Time in 24 hour format
// Returns: HH:MM:SS#
// :GLH# Get Local Time in 24 hour format
// Returns: HH:MM:SS.SSSS# (high precision)
// On devices with single precision fp several days up-time will cause loss of precision as additional mantissa digits are needed to represent hours
// Devices with double precision fp are limitated by sidereal clock overflow which takes 249 days
if (command[1] == 'L') {
LMT=timeRange(UT1-timeZone);
if ( parameter[0] == 0) {
doubleToHms(reply,&LMT,PM_HIGH); boolReply=false;
} else
if ((parameter[0] == 'a' || parameter[0] == 'H') && parameter[1] == 0) {
doubleToHms(reply,&LMT,PM_HIGHEST); boolReply=false;
}
}
else
// :GM# Get site 1 name
// :GN# Get site 2 name
// :GO# Get site 3 name
// :GP# Get site 4 name
// Returns: s#
if ((command[1] == 'M' || command[1] == 'N' || command[1] == 'O' || command[1] == 'P') && parameter[0] == 0) {
i=command[1]-'M';
nv.readString(EE_sites+i*25+9,reply);
if (reply[0] == 0) { strcat(reply,"None"); }
boolReply=false;
} else
// :Gm# Gets the meridian pier-side
// Returns: E#, W#, N# (none/parked)
if (command[1] == 'm' && parameter[0] == 0) {
reply[0]='?'; reply[1]=0;
if (getInstrPierSide() == PierSideNone) reply[0]='N';
if (getInstrPierSide() == PierSideEast) reply[0]='E';
if (getInstrPierSide() == PierSideWest) reply[0]='W';
boolReply=false; } else
// :Go# Get Overhead Limit
// Returns: DD*#
// The highest elevation above the horizon that the telescope will goto
if (command[1] == 'o' && parameter[0] == 0) { sprintf(reply,"%02d*",maxAlt); boolReply=false; } else
// :GR# Get Telescope RA
// Returns: HH:MM.T# or HH:MM:SS# (based on precision setting)
// :GRH# Get Telescope RA High Precision
// Returns: HH:MM:SS.SSSS#
if (command[1] == 'R') {
#ifdef HAL_SLOW_PROCESSOR
if ((long)(millis()-_coord_t) > 500)
#else
if ((long)(millis()-_coord_t) > 50)
#endif
{
getEqu(&f,&f1,false);
#if TELESCOPE_COORDINATES == TOPOCENTRIC
observedPlaceToTopocentric(&f,&f1);
#endif
_ra=f/15.0; _dec=f1; _coord_t=millis();
}
if (parameter[0] == 0) {
doubleToHms(reply,&_ra,precision); boolReply=false;
} else
if ((parameter[0] == 'a' || parameter[0] == 'H') && parameter[1] == 0) {
doubleToHms(reply,&_ra,PM_HIGHEST); boolReply=false;
} else commandError=CE_CMD_UNKNOWN;
} else
// :Gr# Get current/target object RA
// Returns: HH:MM.T# or HH:MM:SS (based on precision setting)
// :GrH# Get Telescope RA
// Returns: HH:MM:SS.SSSS# (high precision)
if (command[1] == 'r') {
f=origTargetRA; f/=15.0;
if (parameter[0] == 0) {
doubleToHms(reply,&f,precision); boolReply=false;
} else
if ((parameter[0] == 'a' || parameter[0] == 'H') && parameter[1] == 0) {
doubleToHms(reply,&f,PM_HIGHEST); boolReply=false;
} else commandError=CE_CMD_UNKNOWN;
} else
// :GS# Get the Sidereal Time as sexagesimal value in 24 hour format
// Returns: HH:MM:SS#
// :GSa# Get the Sidereal Time as sexagesimal value in 24 hour format, with high precision
// Returns HH:MM:SS.ss#
if (command[1] == 'S') {
f = LST();
if (parameter[0] == 0) {
doubleToHms(reply,&f,PM_HIGH); boolReply=false;
} else
if (parameter[0] == 'a' && parameter[1] == 0) {
doubleToHms(reply,&f,PM_HIGHEST); boolReply=false;
}
} else
// :GT# Get tracking rate, 0.0 unless TrackingSidereal
// Returns: n.n# (OnStep returns more decimal places than LX200 standard)
if (command[1] == 'T' && parameter[0] == 0) {
char temp[10];
f=getTrackingRate60Hz();
dtostrf(f,0,5,temp);
strcpy(reply,temp);
boolReply=false;
} else
// :Gt# Get current site Latitude, positive for North latitudes
// Returns: sDD*MM#
// :GtH# Get current site Latitude, positive for North latitudes
// Returns: sDD*MM:SS.SSS# (high precision)
if (command[1] == 't') {
if (parameter[0] == 0) {
doubleToDms(reply,&latitude,false,true,PM_LOW); boolReply=false;
} else
if (parameter[0] == 'H' && parameter[1] == 0) {
doubleToDms(reply,&latitude,false,true,PM_HIGHEST); boolReply=false;
} else commandError=CE_CMD_UNKNOWN;
} else
// :GU# Get telescope Status
// Returns: s#
if (command[1] == 'U' && parameter[0] == 0) {
i=0;
if (trackingState != TrackingSidereal &&
!(trackingState == TrackingMoveTo && lastTrackingState == TrackingSidereal)) reply[i++]='n'; // [n]ot tracking
if (trackingState != TrackingMoveTo && !trackingSyncInProgress()) reply[i++]='N'; // [N]o goto
const char *parkStatusCh = "pIPF"; reply[i++]=parkStatusCh[parkStatus]; // not [p]arked, parking [I]n-progress, [P]arked, Park [F]ailed
if (pecRecorded) reply[i++]='R'; // PEC data has been [R]ecorded
if (syncToEncodersOnly) reply[i++]='e'; // sync to [e]ncoders only
if (atHome) reply[i++]='H'; // at [H]ome
if (ppsSynced) reply[i++]='S'; // PPS [S]ync
if (isPulseGuiding()) reply[i++]='G'; // pulse [G]uide active
if ((guideDirAxis1 || guideDirAxis2) && !isPulseGuiding())
reply[i++]='g'; // [g]uide active
#if MOUNT_TYPE != ALTAZM
if (rateCompensation == RC_REFR_RA) { reply[i++]='r'; reply[i++]='s'; } // [r]efr enabled [s]ingle axis
if (rateCompensation == RC_REFR_BOTH) { reply[i++]='r'; } // [r]efr enabled
if (rateCompensation == RC_FULL_RA) { reply[i++]='t'; reply[i++]='s'; } // on[t]rack enabled [s]ingle axis
if (rateCompensation == RC_FULL_BOTH) { reply[i++]='t'; } // on[t]rack enabled
#endif
if (waitingHome) reply[i++]='w'; // [w]aiting at home
if (pauseHome) reply[i++]='u'; // pa[u]se at home enabled?
if (soundEnabled) reply[i++]='z'; // bu[z]zer enabled?
#if MOUNT_TYPE == GEM
if (autoMeridianFlip) reply[i++]='a'; // [a]uto meridian flip
#endif
#if AXIS1_PEC == ON
const char *pch = PECStatusStringAlt; reply[i++]=pch[pecStatus]; // PEC Status one of "/,~;^" (/)gnore, ready to (,)lay, (~)laying, ready to (;)ecord, (^)ecording
#endif
// provide mount type
#if MOUNT_TYPE == GEM
reply[i++]='E';
#elif MOUNT_TYPE == FORK
reply[i++]='K';
#elif MOUNT_TYPE == ALTAZM
reply[i++]='A';
#endif
// provide pier side info.
if (getInstrPierSide() == PierSideNone) reply[i++]='o'; else // pier side n[o]ne
if (getInstrPierSide() == PierSideEast) reply[i++]='T'; else // pier side eas[T]
if (getInstrPierSide() == PierSideWest) reply[i++]='W'; // pier side [W]est
// provide pulse-guide rate
reply[i++]='0'+getPulseGuideRate();
// provide guide rate
if (currentGuideRate == -1) reply[i++]='9'; else reply[i++]='0'+currentGuideRate;
// provide general error
reply[i++]='0'+generalError;
reply[i++]=0;
boolReply=false;
} else
// :Gu# Get bit packed telescope status
// Returns: s#
if (command[1] == 'u' && parameter[0] == 0) {
memset(reply,(char)0b10000000,9);
if (trackingState != TrackingSidereal &&
!(trackingState == TrackingMoveTo && lastTrackingState == TrackingSidereal)) reply[0]|=0b10000001; // Not tracking
if (trackingState != TrackingMoveTo && !trackingSyncInProgress()) reply[0]|=0b10000010; // No goto
if (ppsSynced) reply[0]|=0b10000100; // PPS sync
if (isPulseGuiding()) reply[0]|=0b10001000; // pulse guide active
#if MOUNT_TYPE != ALTAZM
if (rateCompensation == RC_REFR_RA) reply[0]|=0b11010000; // Refr enabled Single axis
if (rateCompensation == RC_REFR_BOTH) reply[0]|=0b10010000; // Refr enabled
if (rateCompensation == RC_FULL_RA) reply[0]|=0b11100000; // OnTrack enabled Single axis
if (rateCompensation == RC_FULL_BOTH) reply[0]|=0b10100000; // OnTrack enabled
#endif
if (rateCompensation == RC_NONE) {
double tr=getTrackingRate60Hz();
if (fabs(tr-57.900)<0.001) reply[1]|=0b10000001; else // Lunar rate selected
if (fabs(tr-60.000)<0.001) reply[1]|=0b10000010; else // Solar rate selected
if (fabs(tr-60.136)<0.001) reply[1]|=0b10000011; // King rate selected
}
if (syncToEncodersOnly) reply[1]|=0b10000100; // sync to encoders only
if ((guideDirAxis1 || guideDirAxis2) && !isPulseGuiding())
reply[1]|=0b10001000; // guide active
if (atHome) reply[2]|=0b10000001; // At home
if (waitingHome) reply[2]|=0b10000010; // Waiting at home
if (pauseHome) reply[2]|=0b10000100; // Pause at home enabled?
if (soundEnabled) reply[2]|=0b10001000; // Buzzer enabled?
#if MOUNT_TYPE == GEM
if (autoMeridianFlip) reply[2]|=0b10010000; // Auto meridian flip
#endif
if (pecRecorded) reply[2]|=0b10100000; // PEC data has been recorded
// provide mount type
#if MOUNT_TYPE == GEM
reply[3]|=0b10000001; // GEM
#elif MOUNT_TYPE == FORK
reply[3]|=0b10000010; // FORK
#elif MOUNT_TYPE == ALTAZM
reply[3]|=0b10001000; // ALTAZM
#endif
// provide pier side info.
if (getInstrPierSide() == PierSideNone) reply[3]|=0b10010000; else // Pier side none
if (getInstrPierSide() == PierSideEast) reply[3]|=0b10100000; else // Pier side east
if (getInstrPierSide() == PierSideWest) reply[3]|=0b11000000; // Pier side west
#if AXIS1_PEC == ON
reply[4]=pecStatus|0b10000000; // PEC status: 0 ignore, 1 ready play, 2 playing, 3 ready record, 4 recording
#endif
reply[5]=parkStatus|0b10000000; // Park status: 0 not parked, 1 parking in-progress, 2 parked, 3 park failed
reply[6]=getPulseGuideRate()|0b10000000; // Pulse-guide rate
if (currentGuideRate == -1) reply[7]=9|0b10000000; else reply[7]=currentGuideRate|0b10000000; // Guide rate
reply[8]=generalError|0b10000000; // General error
reply[9]=0;
boolReply=false;
} else
// :GVD# Get Telescope Firmware Date
// Returns: MTH DD YYYY#
// :GVM# General Message
// Returns: s# (where s is a string up to 16 chars)
// :GVN# Get Telescope Firmware Number
// Returns: M.mp#
// :GVP# Get Telescope Product Name
// Returns: s#
// :GVT# Get Telescope Firmware Time
// Returns: HH:MM:SS#
if (command[1] == 'V') {
if (parameter[1] == 0) {
if (parameter[0] == 'D') strcpy(reply,FirmwareDate); else
if (parameter[0] == 'M') sprintf(reply,"OnStep %i.%i%s",FirmwareVersionMajor,FirmwareVersionMinor,FirmwareVersionPatch); else
if (parameter[0] == 'N') sprintf(reply,"%i.%i%s",FirmwareVersionMajor,FirmwareVersionMinor,FirmwareVersionPatch); else
if (parameter[0] == 'P') strcpy(reply,FirmwareName); else
if (parameter[0] == 'T') strcpy(reply,FirmwareTime); else commandError=CE_CMD_UNKNOWN;
} else commandError=CE_CMD_UNKNOWN;
boolReply=false;
} else
// :GW# Get alignment status
// Returns: [mount][tracking][alignment]#
// Where mount: A-AltAzm, P-Fork, G-GEM
// tracking: T-tracking, N-not tracking
// alignment: 0-needs alignment, 1-one star aligned, 2-two star aligned, >= 3-three star aligned
if (command[1] == 'W' && parameter[0] == 0) {
// mount type
#if MOUNT_TYPE == GEM
reply[0]='G';
#elif MOUNT_TYPE == FORK
reply[0]='P';
#elif MOUNT_TYPE == ALTAZM
reply[0]='A';
#endif
// tracking
if (trackingState != TrackingSidereal || trackingSyncInProgress()) reply[1]='N'; else reply[1]='T';
// align status
i=alignThisStar-1; if (i<0) i=0; if (i > 3) i=3; reply[2]='0'+i;
reply[3]=0;
boolReply=false;
} else
// :GX[II]# Get OnStep value where II is the numeric index
// Returns: n (numeric value, possibly floating point)
if (command[1] == 'X') {
if (parameter[2] == (char)0) {
if (parameter[0] == '0') { // 0n: Align Model
static int star=0;
switch (parameter[1]) {
case '0': sprintf(reply,"%ld",(long)(Align.ax1Cor*3600.0)); boolReply=false; break; // ax1Cor
case '1': sprintf(reply,"%ld",(long)(Align.ax2Cor*3600.0)); boolReply=false; break; // ax2Cor
case '2': sprintf(reply,"%ld",(long)(Align.altCor*3600.0)); boolReply=false; break; // altCor
case '3': sprintf(reply,"%ld",(long)(Align.azmCor*3600.0)); boolReply=false; break; // azmCor
case '4': sprintf(reply,"%ld",(long)(Align.doCor*3600.0)); boolReply=false; break; // doCor
case '5': sprintf(reply,"%ld",(long)(Align.pdCor*3600.0)); boolReply=false; break; // pdCor
#if MOUNT_TYPE == FORK || MOUNT_TYPE == ALTAZM
case '6': sprintf(reply,"%ld",(long)(Align.dfCor*3600.0)); boolReply=false; break; // ffCor
case '7': sprintf(reply,"%ld",(long)(0)); boolReply=false; break; // dfCor
#else
case '6': sprintf(reply,"%ld",(long)(0)); boolReply=false; break; // ffCor
case '7': sprintf(reply,"%ld",(long)(Align.dfCor*3600.0)); boolReply=false; break; // dfCor
#endif
case '8': sprintf(reply,"%ld",(long)(Align.tfCor*3600.0)); boolReply=false; break; // tfCor
// Number of stars, reset to first star
case '9': { int n=0; if (alignThisStar > alignNumStars) n=alignNumStars; sprintf(reply,"%ld",(long)(n)); star=0; boolReply=false; } break;
case 'A': { double f=(Align.actual[star].ha*Rad)/15.0; doubleToHms(reply,&f,PM_HIGH); boolReply=false; } break; // Star #n HA
case 'B': { double f=(Align.actual[star].dec*Rad); doubleToDms(reply,&f,false,true,precision); boolReply=false; } break; // Star #n Dec
case 'C': { double f=(Align.mount[star].ha*Rad)/15.0; doubleToHms(reply,&f,PM_HIGH); boolReply=false; } break; // Mount #n HA
case 'D': { double f=(Align.mount[star].dec*Rad); doubleToDms(reply,&f,false,true,precision); boolReply=false; } break; // Mount #n Dec
case 'E': sprintf(reply,"%ld",(long)(Align.mount[star].side)); star++; boolReply=false; break; // Mount PierSide (and increment n)
default: commandError=CE_CMD_UNKNOWN;
}
} else
if (parameter[0] == '4') { // 4n: Encoder
switch (parameter[1]) {
case '0': getEnc(&f,&f1); doubleToDms(reply,&f,true,true,precision); boolReply=false; break; // Get formatted absolute Axis1 angle
case '1': getEnc(&f,&f1); doubleToDms(reply,&f1,true,true,precision); boolReply=false; break; // Get formatted absolute Axis2 angle
case '2': getEnc(&f,&f1); dtostrf(f,0,6,reply); boolReply=false; break; // Get absolute Axis1 angle in degrees
case '3': getEnc(&f,&f1); dtostrf(f1,0,6,reply); boolReply=false; break; // Get absolute Axis2 angle in degrees
case '9': cli(); dtostrf(trackingTimerRateAxis1,1,8,reply); sei(); boolReply=false; break; // Get current tracking rate
default: commandError=CE_CMD_UNKNOWN;
}
} else
if (parameter[0] == '8') { // 8n: Date/Time
switch (parameter[1]) {
case '0': f=timeRange(UT1); doubleToHms(reply,&f,PM_HIGH); boolReply=false; break; // UTC time
case '1': f1=JD; f=UT1; while (f >= 24.0) { f-=24.0; f1+=1; } while (f < 0.0) { f+=24.0; f1-=1; } greg(f1,&i2,&i,&i1); i2=(i2/99.99999-floor(i2/99.99999))*100; sprintf(reply,"%02d/%02d/%02d",i,i1,i2); boolReply=false; break; // UTC date
case '9': if (dateWasSet && timeWasSet) commandError=CE_0; break; // Get Date/Time status, returns 0=known or 1=unknown
default: commandError=CE_CMD_UNKNOWN;
}
} else
if (parameter[0] == '9') { // 9n: Misc.
switch (parameter[1]) {
case '0': dtostrf(guideRates[currentPulseGuideRate]/15.0,2,2,reply); boolReply=false; break;// pulse-guide rate
case '1': sprintf(reply,"%i",pecValue); boolReply=false; break; // pec analog value
case '2': dtostrf(maxRate/16.0,3,3,reply); boolReply=false; break; // MaxRate (current)
case '3': dtostrf((double)maxRateBaseActual,3,3,reply); boolReply=false; break; // maxRateBaseActual (default)
case '4': if (meridianFlip == MeridianFlipNever) { sprintf(reply,"%d N",getInstrPierSide()); } else { sprintf(reply,"%d",getInstrPierSide()); } boolReply=false; break; // pierSide (N if never)
case '5': sprintf(reply,"%i",(int)autoMeridianFlip); boolReply=false; break; // autoMeridianFlip
case '6': // preferred pier side
if (preferredPierSide == EAST) strcpy(reply,"E"); else
if (preferredPierSide == WEST) strcpy(reply,"W"); else strcpy(reply,"B");
boolReply=false; break;
case '7': dtostrf(slewSpeed,3,1,reply); boolReply=false; break; // slew speed
case '8':
#if ROTATOR == ON
#if MOUNT_TYPE == ALTAZM
strcpy(reply,"D");
#else
strcpy(reply,"R");
#endif
#else
strcpy(reply,"N");
#endif
boolReply=false; break; // rotator availablity 2=rotate/derotate, 1=rotate, 0=off
case '9': dtostrf(maxRateLowerLimit()/16.0,3,3,reply); boolReply=false; break; // MaxRate (fastest/lowest)
case 'A': dtostrf(ambient.getTemperature(),3,1,reply); boolReply=false; break; // temperature in deg. C
case 'B': dtostrf(ambient.getPressure(),3,1,reply); boolReply=false; break; // pressure in mb
case 'C': dtostrf(ambient.getHumidity(),3,1,reply); boolReply=false; break; // relative humidity in %
case 'D': dtostrf(ambient.getAltitude(),3,1,reply); boolReply=false; break; // altitude in meters
case 'E': dtostrf(ambient.getDewPoint(),3,1,reply); boolReply=false; break; // dew point in deg. C
case 'F': { float t=HAL_MCU_Temperature(); if (t > -999) { dtostrf(t,1,0,reply); boolReply=false; } else commandError=CE_0; } break; // internal MCU temperature in deg. C
default: commandError=CE_CMD_UNKNOWN;
}
} else
if (parameter[0] == 'A') { // :GXAn: Get axis settings
int p=parameter[1]-'1';
if (p >= 0 && p <= 5) {
uint8_t state=nv.read(EE_settingsRuntime);
// check for all axes set to revert
if (state&1) {
// check for this axis set to revert
if (!(state&(1<<(p+1)))) {
if (p == 0 || p == 1 || (p == 2 && ROTATOR == ON) || (p == 3 && FOCUSER1 == ON) || (p == 4 && FOCUSER2 == ON)) {
axisSettings axis;
nv.readBytes(EE_settingsAxis1+(p*17),(byte*)&axis,sizeof(axis));
sprintf(reply,"%ld.%03ld,%d,%d,%d,%d,%d",(long)axis.stepsPerMeasure,(long)(axis.stepsPerMeasure*1000)%1000,axis.microsteps,axis.IRUN,axis.reverse,axis.min,axis.max);
boolReply=false;
} else commandError=CE_0;
} else commandError=CE_0;
} else commandError=CE_0;
} else commandError=CE_CMD_UNKNOWN;
} else
if (parameter[0] == 'U') { // Un: Get stepper driver statUs
switch (parameter[1]) {
case '1':
#if (AXIS1_DRIVER_STATUS == TMC_SPI)
tmcAxis1.refresh_DRVSTATUS();
strcat(reply,tmcAxis1.get_DRVSTATUS_STST() ? "ST," : ","); // Standstill
strcat(reply,tmcAxis1.get_DRVSTATUS_OLa() ? "OA," : ","); // Open Load A
strcat(reply,tmcAxis1.get_DRVSTATUS_OLb() ? "OB," : ","); // Open Load B
strcat(reply,tmcAxis1.get_DRVSTATUS_S2Ga() ? "GA," : ","); // Short to Ground A
strcat(reply,tmcAxis1.get_DRVSTATUS_S2Gb() ? "GB," : ","); // Short to Ground B
strcat(reply,tmcAxis1.get_DRVSTATUS_OT() ? "OT," : ","); // Overtemp Shutdown 150C
strcat(reply,tmcAxis1.get_DRVSTATUS_OTPW() ? "PW" : ""); // Overtemp Pre-warning 120C
boolReply=false;
#else
commandError=CE_0;
#endif
break;
case '2':
#if (AXIS2_DRIVER_STATUS == TMC_SPI)
tmcAxis2.refresh_DRVSTATUS();
strcat(reply,tmcAxis2.get_DRVSTATUS_STST() ? "ST," : ","); // Standstill
strcat(reply,tmcAxis2.get_DRVSTATUS_OLa() ? "OA," : ","); // Open Load A
strcat(reply,tmcAxis2.get_DRVSTATUS_OLb() ? "OB," : ","); // Open Load B
strcat(reply,tmcAxis2.get_DRVSTATUS_S2Ga() ? "GA," : ","); // Short to Ground A
strcat(reply,tmcAxis2.get_DRVSTATUS_S2Gb() ? "GB," : ","); // Short to Ground B
strcat(reply,tmcAxis2.get_DRVSTATUS_OT() ? "OT," : ","); // Overtemp Shutdown 150C
strcat(reply,tmcAxis2.get_DRVSTATUS_OTPW() ? "PW" : ""); // Overtemp Pre-warning 120C
boolReply=false;
#else
commandError=CE_0;
#endif
break;
default: commandError=CE_CMD_UNKNOWN;
}
} else
if (parameter[0] == 'E') { // En: Get settings