Add option to only check endstop when homing
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@ -170,6 +170,7 @@ const bool Y_ENDSTOPS_INVERTING = true; // set to true to invert the logic of th
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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 Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of the endstops.
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// For optos H21LOB set to true, for Mendel-Parts newer optos TCST2103 set to false
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// For optos H21LOB set to true, for Mendel-Parts newer optos TCST2103 set to false
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//#define ENDSTOPS_ONLY_FOR_HOMING // If defined the endstops will only be used for homing
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// For Inverting Stepper Enable Pins (Active Low) use 0, Non Inverting (Active High) use 1
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// For Inverting Stepper Enable Pins (Active Low) use 0, Non Inverting (Active High) use 1
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#define X_ENABLE_ON 0
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#define X_ENABLE_ON 0
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@ -528,6 +528,8 @@ FORCE_INLINE void process_commands()
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saved_feedmultiply = feedmultiply;
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saved_feedmultiply = feedmultiply;
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feedmultiply = 100;
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feedmultiply = 100;
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enable_endstops(true);
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for(int8_t i=0; i < NUM_AXIS; i++) {
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for(int8_t i=0; i < NUM_AXIS; i++) {
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destination[i] = current_position[i];
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destination[i] = current_position[i];
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}
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}
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@ -563,6 +565,9 @@ FORCE_INLINE void process_commands()
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HOMEAXIS(Z);
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HOMEAXIS(Z);
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current_position[2]=code_value()+add_homeing[2];
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current_position[2]=code_value()+add_homeing[2];
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}
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}
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#ifdef ENDSTOPS_ONLY_FOR_HOMING
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enable_endstops(false);
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#endif
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feedrate = saved_feedrate;
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feedrate = saved_feedrate;
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feedmultiply = saved_feedmultiply;
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feedmultiply = saved_feedmultiply;
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@ -79,6 +79,8 @@ static bool old_y_max_endstop=false;
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static bool old_z_min_endstop=false;
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static bool old_z_min_endstop=false;
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static bool old_z_max_endstop=false;
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static bool old_z_max_endstop=false;
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static bool check_endstops = true;
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volatile long count_position[NUM_AXIS] = { 0, 0, 0, 0};
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volatile long count_position[NUM_AXIS] = { 0, 0, 0, 0};
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volatile char count_direction[NUM_AXIS] = { 1, 1, 1, 1};
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volatile char count_direction[NUM_AXIS] = { 1, 1, 1, 1};
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@ -191,6 +193,11 @@ void endstops_hit_on_purpose()
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endstop_z_hit=false;
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endstop_z_hit=false;
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}
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}
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void enable_endstops(bool check)
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{
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check_endstops = check;
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}
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// __________________________
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// __________________________
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// /| |\ _________________ ^
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// /| |\ _________________ ^
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// / | | \ /| |\ |
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// / | | \ /| |\ |
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@ -309,6 +316,7 @@ ISR(TIMER1_COMPA_vect)
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if ((out_bits & (1<<X_AXIS)) != 0) { // -direction
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if ((out_bits & (1<<X_AXIS)) != 0) { // -direction
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WRITE(X_DIR_PIN, INVERT_X_DIR);
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WRITE(X_DIR_PIN, INVERT_X_DIR);
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count_direction[X_AXIS]=-1;
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count_direction[X_AXIS]=-1;
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if(check_endstops) {
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#if X_MIN_PIN > -1
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#if 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_ENDSTOPS_INVERTING);
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if(x_min_endstop && old_x_min_endstop && (current_block->steps_x > 0)) {
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if(x_min_endstop && old_x_min_endstop && (current_block->steps_x > 0)) {
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@ -319,9 +327,11 @@ ISR(TIMER1_COMPA_vect)
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old_x_min_endstop = x_min_endstop;
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old_x_min_endstop = x_min_endstop;
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#endif
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#endif
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}
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}
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}
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else { // +direction
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else { // +direction
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WRITE(X_DIR_PIN,!INVERT_X_DIR);
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WRITE(X_DIR_PIN,!INVERT_X_DIR);
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count_direction[X_AXIS]=1;
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count_direction[X_AXIS]=1;
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if(check_endstops) {
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#if X_MAX_PIN > -1
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#if 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_ENDSTOPS_INVERTING);
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if(x_max_endstop && old_x_max_endstop && (current_block->steps_x > 0)){
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if(x_max_endstop && old_x_max_endstop && (current_block->steps_x > 0)){
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@ -332,10 +342,12 @@ ISR(TIMER1_COMPA_vect)
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old_x_max_endstop = x_max_endstop;
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old_x_max_endstop = x_max_endstop;
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#endif
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#endif
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}
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}
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}
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if ((out_bits & (1<<Y_AXIS)) != 0) { // -direction
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if ((out_bits & (1<<Y_AXIS)) != 0) { // -direction
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WRITE(Y_DIR_PIN,INVERT_Y_DIR);
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WRITE(Y_DIR_PIN,INVERT_Y_DIR);
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count_direction[Y_AXIS]=-1;
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count_direction[Y_AXIS]=-1;
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if(check_endstops) {
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#if Y_MIN_PIN > -1
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#if 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_ENDSTOPS_INVERTING);
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if(y_min_endstop && old_y_min_endstop && (current_block->steps_y > 0)) {
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if(y_min_endstop && old_y_min_endstop && (current_block->steps_y > 0)) {
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@ -346,9 +358,11 @@ ISR(TIMER1_COMPA_vect)
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old_y_min_endstop = y_min_endstop;
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old_y_min_endstop = y_min_endstop;
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#endif
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#endif
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}
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}
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}
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else { // +direction
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else { // +direction
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WRITE(Y_DIR_PIN,!INVERT_Y_DIR);
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WRITE(Y_DIR_PIN,!INVERT_Y_DIR);
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count_direction[Y_AXIS]=1;
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count_direction[Y_AXIS]=1;
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if(check_endstops) {
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#if Y_MAX_PIN > -1
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#if 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_ENDSTOPS_INVERTING);
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if(y_max_endstop && old_y_max_endstop && (current_block->steps_y > 0)){
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if(y_max_endstop && old_y_max_endstop && (current_block->steps_y > 0)){
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@ -359,10 +373,12 @@ ISR(TIMER1_COMPA_vect)
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old_y_max_endstop = y_max_endstop;
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old_y_max_endstop = y_max_endstop;
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#endif
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#endif
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}
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}
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}
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if ((out_bits & (1<<Z_AXIS)) != 0) { // -direction
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if ((out_bits & (1<<Z_AXIS)) != 0) { // -direction
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WRITE(Z_DIR_PIN,INVERT_Z_DIR);
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WRITE(Z_DIR_PIN,INVERT_Z_DIR);
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count_direction[Z_AXIS]=-1;
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count_direction[Z_AXIS]=-1;
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if(check_endstops) {
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#if Z_MIN_PIN > -1
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#if 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_ENDSTOPS_INVERTING);
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if(z_min_endstop && old_z_min_endstop && (current_block->steps_z > 0)) {
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if(z_min_endstop && old_z_min_endstop && (current_block->steps_z > 0)) {
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@ -373,9 +389,11 @@ ISR(TIMER1_COMPA_vect)
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old_z_min_endstop = z_min_endstop;
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old_z_min_endstop = z_min_endstop;
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#endif
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#endif
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}
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}
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}
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else { // +direction
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else { // +direction
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WRITE(Z_DIR_PIN,!INVERT_Z_DIR);
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WRITE(Z_DIR_PIN,!INVERT_Z_DIR);
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count_direction[Z_AXIS]=1;
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count_direction[Z_AXIS]=1;
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if(check_endstops) {
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#if Z_MAX_PIN > -1
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#if 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_ENDSTOPS_INVERTING);
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if(z_max_endstop && old_z_max_endstop && (current_block->steps_z > 0)) {
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if(z_max_endstop && old_z_max_endstop && (current_block->steps_z > 0)) {
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@ -386,6 +404,7 @@ ISR(TIMER1_COMPA_vect)
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old_z_max_endstop = z_max_endstop;
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old_z_max_endstop = z_max_endstop;
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#endif
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#endif
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}
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}
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}
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#ifndef ADVANCE
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#ifndef ADVANCE
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if ((out_bits & (1<<E_AXIS)) != 0) { // -direction
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if ((out_bits & (1<<E_AXIS)) != 0) { // -direction
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@ -666,6 +685,13 @@ void st_init()
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e_steps = 0;
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e_steps = 0;
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TIMSK0 |= (1<<OCIE0A);
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TIMSK0 |= (1<<OCIE0A);
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#endif //ADVANCE
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#endif //ADVANCE
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#ifdef ENDSTOPS_ONLY_FOR_HOMING
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enable_endstops(false);
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#else
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enable_endstops(true);
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#endif
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sei();
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sei();
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}
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}
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@ -44,6 +44,8 @@ void st_wake_up();
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void checkHitEndstops(); //call from somwhere to create an serial error message with the locations the endstops where hit, in case they were triggered
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void checkHitEndstops(); //call from somwhere to create an serial error message with the locations the endstops where hit, in case they were triggered
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void endstops_hit_on_purpose(); //avoid creation of the message, i.e. after homeing and before a routine call of checkHitEndstops();
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void endstops_hit_on_purpose(); //avoid creation of the message, i.e. after homeing and before a routine call of checkHitEndstops();
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void enable_endstops(bool check); // Enable/disable endstop checking
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void checkStepperErrors(); //Print errors detected by the stepper
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void checkStepperErrors(); //Print errors detected by the stepper
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void finishAndDisableSteppers();
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void finishAndDisableSteppers();
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