Added PID autotune. (experimental)
M303 Starts autotune. Wait till the Kp Ki and Kd constants are printed. Put these values in Configuration.h
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c077316b2b
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@ -109,6 +109,7 @@
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// M501 - reads parameters from EEPROM (if you need reset them after you changed them temporarily).
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// M501 - reads parameters from EEPROM (if you need reset them after you changed them temporarily).
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// M502 - reverts to the default "factory settings". You still need to store them in EEPROM afterwards if you want to.
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// M502 - reverts to the default "factory settings". You still need to store them in EEPROM afterwards if you want to.
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// M503 - print the current settings (from memory not from eeprom)
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// M503 - print the current settings (from memory not from eeprom)
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// M303 - PID relay autotune S<temperature> sets the target temperature. (default target temperature = 150C)
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//Stepper Movement Variables
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//Stepper Movement Variables
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@ -1197,6 +1198,13 @@ void process_commands()
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allow_cold_extrudes(true);
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allow_cold_extrudes(true);
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}
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}
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break;
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break;
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case 303: // M303 PID autotune
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{
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float temp = 150.0;
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if (code_seen('S')) temp=code_value();
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PID_autotune(temp);
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}
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break;
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case 400: // finish all moves
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case 400: // finish all moves
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{
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{
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st_synchronize();
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st_synchronize();
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@ -734,7 +734,7 @@
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#define encrot2 3
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#define encrot2 3
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#define encrot3 1
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#define encrot3 1
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#define SDCARDDETECT -1
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//bits in the shift register that carry the buttons for:
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//bits in the shift register that carry the buttons for:
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// left up center down right red
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// left up center down right red
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#define BL_LE 7
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#define BL_LE 7
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@ -62,7 +62,7 @@ int current_raw_bed = 0;
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//===========================================================================
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//===========================================================================
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//=============================private variables============================
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//=============================private variables============================
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//===========================================================================
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//===========================================================================
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static bool temp_meas_ready = false;
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static volatile bool temp_meas_ready = false;
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static unsigned long previous_millis_bed_heater;
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static unsigned long previous_millis_bed_heater;
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//static unsigned long previous_millis_heater;
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//static unsigned long previous_millis_heater;
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@ -133,6 +133,93 @@ static unsigned long previous_millis_bed_heater;
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//============================= functions ============================
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//============================= functions ============================
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//===========================================================================
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//===========================================================================
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void PID_autotune(float temp)
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{
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float input;
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int cycles=0;
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bool heating = true;
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soft_pwm[0] = 255>>1;
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unsigned long temp_millis = millis();
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unsigned long t1=temp_millis;
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unsigned long t2=temp_millis;
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long t_high;
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long t_low;
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long bias=127;
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long d = 127;
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float Ku, Tu;
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float Kp, Ki, Kd;
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float max, min;
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SERIAL_ECHOLN("PID Autotune start");
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for(;;) {
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if(temp_meas_ready == true) { // temp sample ready
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CRITICAL_SECTION_START;
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temp_meas_ready = false;
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CRITICAL_SECTION_END;
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input = analog2temp(current_raw[0], 0);
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max=max(max,input);
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min=min(min,input);
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if(heating == true && input > temp) {
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if(millis() - t2 > 5000) {
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heating=false;
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soft_pwm[0] = (bias - d) >> 1;
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t1=millis();
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t_high=t1 - t2;
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max=temp;
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}
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}
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if(heating == false && input < temp) {
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if(millis() - t1 > 5000) {
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heating=true;
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t2=millis();
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t_low=t2 - t1;
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if(cycles > 0) {
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bias += (d*(t_high - t_low))/(t_low + t_high);
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bias = constrain(bias, 20 ,235);
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if(bias > 127) d = 254 - bias;
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else d = bias;
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SERIAL_PROTOCOLPGM(" bias: "); SERIAL_PROTOCOL(bias);
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SERIAL_PROTOCOLPGM(" d: "); SERIAL_PROTOCOL(d);
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SERIAL_PROTOCOLPGM(" min: "); SERIAL_PROTOCOL(min);
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SERIAL_PROTOCOLPGM(" max: "); SERIAL_PROTOCOLLN(max);
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if(cycles > 2) {
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Ku = (4.0*d)/(3.14159*(max-min)/2.0);
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Tu = ((float)(t_low + t_high)/1000.0);
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Kp = 0.6*Ku;
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Ki = 2*Kp/Tu;
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Kd = Kp*Tu/8;
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SERIAL_PROTOCOLPGM(" Kp: "); SERIAL_PROTOCOLLN(Kp);
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SERIAL_PROTOCOLPGM(" Ki: "); SERIAL_PROTOCOLLN(Ki);
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SERIAL_PROTOCOLPGM(" Kd: "); SERIAL_PROTOCOLLN(Kd);
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}
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}
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soft_pwm[0] = (bias + d) >> 1;
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cycles++;
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min=temp;
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}
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}
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}
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if(input > (temp + 20)) {
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SERIAL_PROTOCOLLNPGM("PID Autotune failed !!!, Temperature to high");
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return;
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}
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if(millis() - temp_millis > 2000) {
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temp_millis = millis();
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SERIAL_PROTOCOLPGM("ok T:");
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SERIAL_PROTOCOL(degHotend(0));
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SERIAL_PROTOCOLPGM(" @:");
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SERIAL_PROTOCOLLN(getHeaterPower(0));
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}
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LCD_STATUS;
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}
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}
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void updatePID()
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void updatePID()
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{
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{
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#ifdef PIDTEMP
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#ifdef PIDTEMP
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@ -158,5 +158,8 @@ FORCE_INLINE void autotempShutdown(){
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}
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}
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#endif
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#endif
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}
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}
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void PID_autotune(float temp);
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#endif
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#endif
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@ -315,19 +315,18 @@ void MainMenu::showStatus()
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static int olddegHotEnd0=-1;
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static int olddegHotEnd0=-1;
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static int oldtargetHotEnd0=-1;
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static int oldtargetHotEnd0=-1;
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//force_lcd_update=true;
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//force_lcd_update=true;
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if(force_lcd_update||feedmultiplychanged) //initial display of content
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if(force_lcd_update) //initial display of content
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{
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{
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feedmultiplychanged=false;
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encoderpos=feedmultiply;
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encoderpos=feedmultiply;
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clear();
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clear();
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lcd.setCursor(0,0);lcdprintPGM("\002123/567\001 ");
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lcd.setCursor(0,0);lcdprintPGM("\002---/---\001 ");
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#if defined BED_USES_THERMISTOR || defined BED_USES_AD595
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#if defined BED_USES_THERMISTOR || defined BED_USES_AD595
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lcd.setCursor(10,0);lcdprintPGM("B123/567\001 ");
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lcd.setCursor(10,0);lcdprintPGM("B---/---\001 ");
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#endif
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#endif
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}
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}
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int tHotEnd0=intround(degHotend0());
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int tHotEnd0=intround(degHotend0());
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if((abs(tHotEnd0-olddegHotEnd0)>1)||force_lcd_update) //>1 because otherwise the lcd is refreshed to often.
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if((tHotEnd0!=olddegHotEnd0)||force_lcd_update)
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{
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{
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lcd.setCursor(1,0);
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lcd.setCursor(1,0);
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lcd.print(ftostr3(tHotEnd0));
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lcd.print(ftostr3(tHotEnd0));
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@ -379,8 +378,15 @@ void MainMenu::showStatus()
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lcdprintPGM("Z:");lcd.print(ftostr52(current_position[2]));
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lcdprintPGM("Z:");lcd.print(ftostr52(current_position[2]));
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oldzpos=currentz;
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oldzpos=currentz;
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}
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}
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static int oldfeedmultiply=0;
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static int oldfeedmultiply=0;
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int curfeedmultiply=feedmultiply;
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int curfeedmultiply=feedmultiply;
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if(feedmultiplychanged == true) {
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feedmultiplychanged == false;
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encoderpos = curfeedmultiply;
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}
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if(encoderpos!=curfeedmultiply||force_lcd_update)
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if(encoderpos!=curfeedmultiply||force_lcd_update)
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{
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{
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curfeedmultiply=encoderpos;
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curfeedmultiply=encoderpos;
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@ -391,12 +397,14 @@ void MainMenu::showStatus()
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feedmultiply=curfeedmultiply;
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feedmultiply=curfeedmultiply;
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encoderpos=curfeedmultiply;
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encoderpos=curfeedmultiply;
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}
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}
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if((curfeedmultiply!=oldfeedmultiply)||force_lcd_update)
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if((curfeedmultiply!=oldfeedmultiply)||force_lcd_update)
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{
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{
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oldfeedmultiply=curfeedmultiply;
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oldfeedmultiply=curfeedmultiply;
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lcd.setCursor(0,2);
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lcd.setCursor(0,2);
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lcd.print(itostr3(curfeedmultiply));lcdprintPGM("% ");
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lcd.print(itostr3(curfeedmultiply));lcdprintPGM("% ");
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}
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}
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if(messagetext[0]!='\0')
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if(messagetext[0]!='\0')
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{
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{
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lcd.setCursor(0,LCD_HEIGHT-1);
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lcd.setCursor(0,LCD_HEIGHT-1);
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@ -404,7 +412,6 @@ void MainMenu::showStatus()
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uint8_t n=strlen(messagetext);
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uint8_t n=strlen(messagetext);
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for(int8_t i=0;i<LCD_WIDTH-n;i++)
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for(int8_t i=0;i<LCD_WIDTH-n;i++)
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lcd.print(" ");
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lcd.print(" ");
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messagetext[0]='\0';
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messagetext[0]='\0';
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}
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}
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