mirror of
https://github.com/MarlinFirmware/Marlin.git
synced 2024-11-23 12:04:19 +00:00
Merge branch 'Marlin_v1' of https://github.com/ErikZalm/Marlin.git into Marlin_v1
Conflicts: Marlin/Marlin_main.cpp
This commit is contained in:
commit
a54fe2d73c
@ -282,9 +282,12 @@
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#endif
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// The pullups are needed if you directly connect a mechanical endswitch between the signal and ground pins.
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const bool X_ENDSTOPS_INVERTING = true; // set to true to invert the logic of the endstops.
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const bool Y_ENDSTOPS_INVERTING = true; // set to true to invert the logic of the endstops.
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const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of the endstops.
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const bool X_MIN_ENDSTOP_INVERTING = true; // set to true to invert the logic of the endstop.
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const bool Y_MIN_ENDSTOP_INVERTING = true; // set to true to invert the logic of the endstop.
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const bool Z_MIN_ENDSTOP_INVERTING = true; // set to true to invert the logic of the endstop.
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const bool X_MAX_ENDSTOP_INVERTING = true; // set to true to invert the logic of the endstop.
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const bool Y_MAX_ENDSTOP_INVERTING = true; // set to true to invert the logic of the endstop.
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const bool Z_MAX_ENDSTOP_INVERTING = true; // set to true to invert the logic of the endstop.
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//#define DISABLE_MAX_ENDSTOPS
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//#define DISABLE_MIN_ENDSTOPS
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@ -312,7 +312,12 @@ LDFLAGS = -lm
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# Programming support using avrdude. Settings and variables.
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AVRDUDE_PORT = $(UPLOAD_PORT)
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AVRDUDE_WRITE_FLASH = -U flash:w:$(BUILD_DIR)/$(TARGET).hex:i
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AVRDUDE_FLAGS = -D -C $(ARDUINO_INSTALL_DIR)/hardware/tools/avr/etc/avrdude.conf \
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ifeq ($(shell uname -s), Linux)
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AVRDUDE_CONF = $(ARDUINO_INSTALL_DIR)/hardware/tools/avrdude.conf
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else
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AVRDUDE_CONF = $(ARDUINO_INSTALL_DIR)/hardware/tools/avr/etc/avrdude.conf
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endif
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AVRDUDE_FLAGS = -D -C $(AVRDUDE_CONF) \
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-p $(MCU) -P $(AVRDUDE_PORT) -c $(AVRDUDE_PROGRAMMER) \
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-b $(UPLOAD_RATE)
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@ -51,22 +51,22 @@
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#define MYSERIAL MSerial
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#endif
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#define SERIAL_PROTOCOL(x) MYSERIAL.print(x);
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#define SERIAL_PROTOCOL_F(x,y) MYSERIAL.print(x,y);
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#define SERIAL_PROTOCOLPGM(x) serialprintPGM(PSTR(x));
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#define SERIAL_PROTOCOLLN(x) {MYSERIAL.print(x);MYSERIAL.write('\n');}
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#define SERIAL_PROTOCOLLNPGM(x) {serialprintPGM(PSTR(x));MYSERIAL.write('\n');}
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#define SERIAL_PROTOCOL(x) (MYSERIAL.print(x))
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#define SERIAL_PROTOCOL_F(x,y) (MYSERIAL.print(x,y))
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#define SERIAL_PROTOCOLPGM(x) (serialprintPGM(PSTR(x)))
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#define SERIAL_PROTOCOLLN(x) (MYSERIAL.print(x),MYSERIAL.write('\n'))
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#define SERIAL_PROTOCOLLNPGM(x) (serialprintPGM(PSTR(x)),MYSERIAL.write('\n'))
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const char errormagic[] PROGMEM ="Error:";
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const char echomagic[] PROGMEM ="echo:";
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#define SERIAL_ERROR_START serialprintPGM(errormagic);
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#define SERIAL_ERROR_START (serialprintPGM(errormagic))
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#define SERIAL_ERROR(x) SERIAL_PROTOCOL(x)
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#define SERIAL_ERRORPGM(x) SERIAL_PROTOCOLPGM(x)
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#define SERIAL_ERRORLN(x) SERIAL_PROTOCOLLN(x)
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#define SERIAL_ERRORLNPGM(x) SERIAL_PROTOCOLLNPGM(x)
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#define SERIAL_ECHO_START serialprintPGM(echomagic);
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#define SERIAL_ECHO_START (serialprintPGM(echomagic))
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#define SERIAL_ECHO(x) SERIAL_PROTOCOL(x)
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#define SERIAL_ECHOPGM(x) SERIAL_PROTOCOLPGM(x)
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#define SERIAL_ECHOLN(x) SERIAL_PROTOCOLLN(x)
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@ -1542,27 +1542,27 @@ void process_commands()
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SERIAL_PROTOCOLLN(MSG_M119_REPORT);
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#if defined(X_MIN_PIN) && X_MIN_PIN > -1
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SERIAL_PROTOCOLPGM(MSG_X_MIN);
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SERIAL_PROTOCOLLN(((READ(X_MIN_PIN)^X_ENDSTOPS_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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SERIAL_PROTOCOLLN(((READ(X_MIN_PIN)^X_MIN_ENDSTOP_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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#endif
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#if defined(X_MAX_PIN) && X_MAX_PIN > -1
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SERIAL_PROTOCOLPGM(MSG_X_MAX);
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SERIAL_PROTOCOLLN(((READ(X_MAX_PIN)^X_ENDSTOPS_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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SERIAL_PROTOCOLLN(((READ(X_MAX_PIN)^X_MAX_ENDSTOP_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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#endif
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#if defined(Y_MIN_PIN) && Y_MIN_PIN > -1
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SERIAL_PROTOCOLPGM(MSG_Y_MIN);
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SERIAL_PROTOCOLLN(((READ(Y_MIN_PIN)^Y_ENDSTOPS_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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SERIAL_PROTOCOLLN(((READ(Y_MIN_PIN)^Y_MIN_ENDSTOP_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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#endif
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#if defined(Y_MAX_PIN) && Y_MAX_PIN > -1
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SERIAL_PROTOCOLPGM(MSG_Y_MAX);
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SERIAL_PROTOCOLLN(((READ(Y_MAX_PIN)^Y_ENDSTOPS_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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SERIAL_PROTOCOLLN(((READ(Y_MAX_PIN)^Y_MAX_ENDSTOP_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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#endif
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#if defined(Z_MIN_PIN) && Z_MIN_PIN > -1
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SERIAL_PROTOCOLPGM(MSG_Z_MIN);
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SERIAL_PROTOCOLLN(((READ(Z_MIN_PIN)^Z_ENDSTOPS_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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SERIAL_PROTOCOLLN(((READ(Z_MIN_PIN)^Z_MIN_ENDSTOP_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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#endif
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#if defined(Z_MAX_PIN) && Z_MAX_PIN > -1
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SERIAL_PROTOCOLPGM(MSG_Z_MAX);
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SERIAL_PROTOCOLLN(((READ(Z_MAX_PIN)^Z_ENDSTOPS_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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SERIAL_PROTOCOLLN(((READ(Z_MAX_PIN)^Z_MAX_ENDSTOP_INVERTING)?MSG_ENDSTOP_HIT:MSG_ENDSTOP_OPEN));
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#endif
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break;
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//TODO: update for all axis, use for loop
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@ -278,9 +278,12 @@
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#endif
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// The pullups are needed if you directly connect a mechanical endswitch between the signal and ground pins.
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const bool X_ENDSTOPS_INVERTING = false; // set to true to invert the logic of the endstops.
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const bool Y_ENDSTOPS_INVERTING = false; // set to true to invert the logic of the endstops.
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const bool Z_ENDSTOPS_INVERTING = false; // set to true to invert the logic of the endstops.
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const bool X_MIN_ENDSTOP_INVERTING = false; // set to true to invert the logic of the endstop.
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const bool Y_MIN_ENDSTOP_INVERTING = false; // set to true to invert the logic of the endstop.
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const bool Z_MIN_ENDSTOP_INVERTING = false; // set to true to invert the logic of the endstop.
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const bool X_MAX_ENDSTOP_INVERTING = false; // set to true to invert the logic of the endstop.
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const bool Y_MAX_ENDSTOP_INVERTING = false; // set to true to invert the logic of the endstop.
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const bool Z_MAX_ENDSTOP_INVERTING = false; // set to true to invert the logic of the endstop.
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// deltas never have min endstops
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#define DISABLE_MIN_ENDSTOPS
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@ -388,7 +388,7 @@ ISR(TIMER1_COMPA_vect)
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#endif
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{
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#if defined(X_MIN_PIN) && X_MIN_PIN > -1
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bool x_min_endstop=(READ(X_MIN_PIN) != X_ENDSTOPS_INVERTING);
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bool x_min_endstop=(READ(X_MIN_PIN) != X_MIN_ENDSTOP_INVERTING);
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if(x_min_endstop && old_x_min_endstop && (current_block->steps_x > 0)) {
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endstops_trigsteps[X_AXIS] = count_position[X_AXIS];
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endstop_x_hit=true;
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@ -408,7 +408,7 @@ ISR(TIMER1_COMPA_vect)
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#endif
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{
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#if defined(X_MAX_PIN) && X_MAX_PIN > -1
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bool x_max_endstop=(READ(X_MAX_PIN) != X_ENDSTOPS_INVERTING);
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bool x_max_endstop=(READ(X_MAX_PIN) != X_MAX_ENDSTOP_INVERTING);
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if(x_max_endstop && old_x_max_endstop && (current_block->steps_x > 0)){
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endstops_trigsteps[X_AXIS] = count_position[X_AXIS];
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endstop_x_hit=true;
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@ -428,7 +428,7 @@ ISR(TIMER1_COMPA_vect)
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CHECK_ENDSTOPS
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{
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#if defined(Y_MIN_PIN) && Y_MIN_PIN > -1
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bool y_min_endstop=(READ(Y_MIN_PIN) != Y_ENDSTOPS_INVERTING);
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bool y_min_endstop=(READ(Y_MIN_PIN) != Y_MIN_ENDSTOP_INVERTING);
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if(y_min_endstop && old_y_min_endstop && (current_block->steps_y > 0)) {
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endstops_trigsteps[Y_AXIS] = count_position[Y_AXIS];
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endstop_y_hit=true;
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@ -442,7 +442,7 @@ ISR(TIMER1_COMPA_vect)
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CHECK_ENDSTOPS
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{
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#if defined(Y_MAX_PIN) && Y_MAX_PIN > -1
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bool y_max_endstop=(READ(Y_MAX_PIN) != Y_ENDSTOPS_INVERTING);
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bool y_max_endstop=(READ(Y_MAX_PIN) != Y_MAX_ENDSTOP_INVERTING);
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if(y_max_endstop && old_y_max_endstop && (current_block->steps_y > 0)){
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endstops_trigsteps[Y_AXIS] = count_position[Y_AXIS];
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endstop_y_hit=true;
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@ -464,7 +464,7 @@ ISR(TIMER1_COMPA_vect)
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CHECK_ENDSTOPS
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{
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#if defined(Z_MIN_PIN) && Z_MIN_PIN > -1
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bool z_min_endstop=(READ(Z_MIN_PIN) != Z_ENDSTOPS_INVERTING);
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bool z_min_endstop=(READ(Z_MIN_PIN) != Z_MIN_ENDSTOP_INVERTING);
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if(z_min_endstop && old_z_min_endstop && (current_block->steps_z > 0)) {
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endstops_trigsteps[Z_AXIS] = count_position[Z_AXIS];
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endstop_z_hit=true;
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@ -485,7 +485,7 @@ ISR(TIMER1_COMPA_vect)
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CHECK_ENDSTOPS
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{
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#if defined(Z_MAX_PIN) && Z_MAX_PIN > -1
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bool z_max_endstop=(READ(Z_MAX_PIN) != Z_ENDSTOPS_INVERTING);
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bool z_max_endstop=(READ(Z_MAX_PIN) != Z_MAX_ENDSTOP_INVERTING);
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if(z_max_endstop && old_z_max_endstop && (current_block->steps_z > 0)) {
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endstops_trigsteps[Z_AXIS] = count_position[Z_AXIS];
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endstop_z_hit=true;
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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_PROTOCOLLNPGM(" Clasic PID ")
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SERIAL_PROTOCOLLNPGM(" Clasic PID ");
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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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@ -436,10 +436,9 @@ void manage_heater()
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//K1 defined in Configuration.h in the PID settings
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#define K2 (1.0-K1)
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dTerm[e] = (Kd * (pid_input - temp_dState[e]))*K2 + (K1 * dTerm[e]);
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temp_dState[e] = pid_input;
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pid_output = constrain(pTerm[e] + iTerm[e] - dTerm[e], 0, PID_MAX);
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}
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temp_dState[e] = pid_input;
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#else
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pid_output = constrain(target_temperature[e], 0, PID_MAX);
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#endif //PID_OPENLOOP
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