force inline
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311627141b
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b19c8b74b9
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@ -32,6 +32,7 @@
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#if defined(UBRRH) || defined(UBRR0H) || defined(UBRR1H) || defined(UBRR2H) || defined(UBRR3H)
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#if defined(UBRRH) || defined(UBRR0H) || defined(UBRR1H) || defined(UBRR2H) || defined(UBRR3H)
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#include "MarlinSerial.h"
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#include "MarlinSerial.h"
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#include "Marlin.h"
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@ -41,7 +42,7 @@
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#endif
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#endif
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inline void store_char(unsigned char c)
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FORCE_INLINE void store_char(unsigned char c)
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{
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{
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int i = (unsigned int)(rx_buffer.head + 1) % RX_BUFFER_SIZE;
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int i = (unsigned int)(rx_buffer.head + 1) % RX_BUFFER_SIZE;
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@ -24,6 +24,8 @@
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#include <inttypes.h>
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#include <inttypes.h>
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#include <Stream.h>
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#include <Stream.h>
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#define FORCE_INLINE __attribute__((always_inline)) inline
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// Define constants and variables for buffering incoming serial data. We're
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// Define constants and variables for buffering incoming serial data. We're
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@ -55,12 +57,12 @@ class MarlinSerial //: public Stream
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int read(void);
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int read(void);
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void flush(void);
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void flush(void);
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inline int available(void)
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FORCE_INLINE int available(void)
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{
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{
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return (unsigned int)(RX_BUFFER_SIZE + rx_buffer.head - rx_buffer.tail) % RX_BUFFER_SIZE;
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return (unsigned int)(RX_BUFFER_SIZE + rx_buffer.head - rx_buffer.tail) % RX_BUFFER_SIZE;
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}
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}
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inline void write(uint8_t c)
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FORCE_INLINE void write(uint8_t c)
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{
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{
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while (!((UCSR0A) & (1 << UDRE0)))
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while (!((UCSR0A) & (1 << UDRE0)))
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;
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;
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@ -69,7 +71,7 @@ class MarlinSerial //: public Stream
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}
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}
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inline void checkRx(void)
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FORCE_INLINE void checkRx(void)
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{
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{
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if((UCSR0A & (1<<RXC0)) != 0) {
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if((UCSR0A & (1<<RXC0)) != 0) {
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unsigned char c = UDR0;
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unsigned char c = UDR0;
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@ -94,27 +96,27 @@ class MarlinSerial //: public Stream
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public:
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public:
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inline void write(const char *str)
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FORCE_INLINE void write(const char *str)
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{
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{
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while (*str)
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while (*str)
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write(*str++);
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write(*str++);
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}
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}
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inline void write(const uint8_t *buffer, size_t size)
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FORCE_INLINE void write(const uint8_t *buffer, size_t size)
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{
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{
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while (size--)
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while (size--)
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write(*buffer++);
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write(*buffer++);
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}
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}
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inline void print(const String &s)
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FORCE_INLINE void print(const String &s)
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{
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{
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for (int i = 0; i < s.length(); i++) {
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for (int i = 0; i < s.length(); i++) {
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write(s[i]);
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write(s[i]);
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}
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}
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}
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}
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inline void print(const char *str)
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FORCE_INLINE void print(const char *str)
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{
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{
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write(str);
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write(str);
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}
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}
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@ -62,7 +62,7 @@ extern float Kp,Ki,Kd,Kc;
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FORCE_INLINE float degHotend0(){ return analog2temp(current_raw[TEMPSENSOR_HOTEND_0]);};
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FORCE_INLINE float degHotend0(){ return analog2temp(current_raw[TEMPSENSOR_HOTEND_0]);};
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FORCE_INLINE float degHotend1(){ return analog2temp(current_raw[TEMPSENSOR_HOTEND_1]);};
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FORCE_INLINE float degHotend1(){ return analog2temp(current_raw[TEMPSENSOR_HOTEND_1]);};
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FORCE_INLINE float degBed() { return analog2tempBed(current_raw[TEMPSENSOR_BED]);};
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FORCE_INLINE float degBed() { return analog2tempBed(current_raw[TEMPSENSOR_BED]);};
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inline float degHotend(uint8_t extruder){
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FORCE_INLINE float degHotend(uint8_t extruder){
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if(extruder == 0) return analog2temp(current_raw[TEMPSENSOR_HOTEND_0]);
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if(extruder == 0) return analog2temp(current_raw[TEMPSENSOR_HOTEND_0]);
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if(extruder == 1) return analog2temp(current_raw[TEMPSENSOR_HOTEND_1]);
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if(extruder == 1) return analog2temp(current_raw[TEMPSENSOR_HOTEND_1]);
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};
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};
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@ -74,7 +74,7 @@ inline float degTargetHotend(uint8_t extruder){
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if(extruder == 1) return analog2temp(target_raw[TEMPSENSOR_HOTEND_1]);
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if(extruder == 1) return analog2temp(target_raw[TEMPSENSOR_HOTEND_1]);
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};
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};
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inline float degTargetBed() { return analog2tempBed(target_raw[TEMPSENSOR_BED]);};
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FORCE_INLINE float degTargetBed() { return analog2tempBed(target_raw[TEMPSENSOR_BED]);};
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FORCE_INLINE void setTargetHotend0(const float &celsius)
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FORCE_INLINE void setTargetHotend0(const float &celsius)
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{
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{
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@ -84,27 +84,27 @@ FORCE_INLINE void setTargetHotend0(const float &celsius)
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#endif //PIDTEMP
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#endif //PIDTEMP
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};
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};
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FORCE_INLINE void setTargetHotend1(const float &celsius) { target_raw[TEMPSENSOR_HOTEND_1]=temp2analog(celsius);};
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FORCE_INLINE void setTargetHotend1(const float &celsius) { target_raw[TEMPSENSOR_HOTEND_1]=temp2analog(celsius);};
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inline float setTargetHotend(const float &celcius, uint8_t extruder){
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FORCE_INLINE float setTargetHotend(const float &celcius, uint8_t extruder){
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if(extruder == 0) setTargetHotend0(celcius);
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if(extruder == 0) setTargetHotend0(celcius);
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if(extruder == 1) setTargetHotend1(celcius);
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if(extruder == 1) setTargetHotend1(celcius);
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};
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};
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inline void setTargetBed(const float &celsius) { target_raw[TEMPSENSOR_BED ]=temp2analogBed(celsius);};
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FORCE_INLINE void setTargetBed(const float &celsius) { target_raw[TEMPSENSOR_BED ]=temp2analogBed(celsius);};
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FORCE_INLINE bool isHeatingHotend0() {return target_raw[TEMPSENSOR_HOTEND_0] > current_raw[TEMPSENSOR_HOTEND_0];};
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FORCE_INLINE bool isHeatingHotend0() {return target_raw[TEMPSENSOR_HOTEND_0] > current_raw[TEMPSENSOR_HOTEND_0];};
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FORCE_INLINE bool isHeatingHotend1() {return target_raw[TEMPSENSOR_HOTEND_1] > current_raw[TEMPSENSOR_HOTEND_1];};
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FORCE_INLINE bool isHeatingHotend1() {return target_raw[TEMPSENSOR_HOTEND_1] > current_raw[TEMPSENSOR_HOTEND_1];};
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inline float isHeatingHotend(uint8_t extruder){
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FORCE_INLINE float isHeatingHotend(uint8_t extruder){
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if(extruder == 0) return target_raw[TEMPSENSOR_HOTEND_0] > current_raw[TEMPSENSOR_HOTEND_0];
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if(extruder == 0) return target_raw[TEMPSENSOR_HOTEND_0] > current_raw[TEMPSENSOR_HOTEND_0];
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if(extruder == 1) return target_raw[TEMPSENSOR_HOTEND_1] > current_raw[TEMPSENSOR_HOTEND_1];
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if(extruder == 1) return target_raw[TEMPSENSOR_HOTEND_1] > current_raw[TEMPSENSOR_HOTEND_1];
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};
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};
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inline bool isHeatingBed() {return target_raw[TEMPSENSOR_BED] > current_raw[TEMPSENSOR_BED];};
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FORCE_INLINE bool isHeatingBed() {return target_raw[TEMPSENSOR_BED] > current_raw[TEMPSENSOR_BED];};
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FORCE_INLINE bool isCoolingHotend0() {return target_raw[TEMPSENSOR_HOTEND_0] < current_raw[TEMPSENSOR_HOTEND_0];};
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FORCE_INLINE bool isCoolingHotend0() {return target_raw[TEMPSENSOR_HOTEND_0] < current_raw[TEMPSENSOR_HOTEND_0];};
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FORCE_INLINE bool isCoolingHotend1() {return target_raw[TEMPSENSOR_HOTEND_1] < current_raw[TEMPSENSOR_HOTEND_1];};
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FORCE_INLINE bool isCoolingHotend1() {return target_raw[TEMPSENSOR_HOTEND_1] < current_raw[TEMPSENSOR_HOTEND_1];};
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inline float isCoolingHotend(uint8_t extruder){
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FORCE_INLINE float isCoolingHotend(uint8_t extruder){
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if(extruder == 0) return target_raw[TEMPSENSOR_HOTEND_0] < current_raw[TEMPSENSOR_HOTEND_0];
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if(extruder == 0) return target_raw[TEMPSENSOR_HOTEND_0] < current_raw[TEMPSENSOR_HOTEND_0];
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if(extruder == 1) return target_raw[TEMPSENSOR_HOTEND_1] < current_raw[TEMPSENSOR_HOTEND_1];
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if(extruder == 1) return target_raw[TEMPSENSOR_HOTEND_1] < current_raw[TEMPSENSOR_HOTEND_1];
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};
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};
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inline bool isCoolingBed() {return target_raw[TEMPSENSOR_BED] < current_raw[TEMPSENSOR_BED];};
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FORCE_INLINE bool isCoolingBed() {return target_raw[TEMPSENSOR_BED] < current_raw[TEMPSENSOR_BED];};
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void disable_heater();
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void disable_heater();
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void setWatch();
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void setWatch();
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