Fix some of the crowded code style. And fixed the conditional. #300
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43018a48c4
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8f20562f49
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@ -435,7 +435,8 @@ void getHighESpeed()
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}
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#endif
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void check_axes_activity() {
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void check_axes_activity()
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{
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unsigned char x_active = 0;
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unsigned char y_active = 0;
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unsigned char z_active = 0;
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@ -444,10 +445,12 @@ void check_axes_activity() {
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unsigned char tail_fan_speed = 0;
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block_t *block;
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if(block_buffer_tail != block_buffer_head) {
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if(block_buffer_tail != block_buffer_head)
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{
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uint8_t block_index = block_buffer_tail;
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tail_fan_speed = block_buffer[block_index].fan_speed;
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while(block_index != block_buffer_head) {
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while(block_index != block_buffer_head)
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{
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block = &block_buffer[block_index];
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if(block->steps_x != 0) x_active++;
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if(block->steps_y != 0) y_active++;
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@ -457,27 +460,31 @@ void check_axes_activity() {
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block_index = (block_index+1) & (BLOCK_BUFFER_SIZE - 1);
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}
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}
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else {
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#if FAN_PIN > -1
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else
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{
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#if FAN_PIN > -1
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if (FanSpeed != 0){
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analogWrite(FAN_PIN,FanSpeed); // If buffer is empty use current fan speed
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}
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#endif
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#endif
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}
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if((DISABLE_X) && (x_active == 0)) disable_x();
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if((DISABLE_Y) && (y_active == 0)) disable_y();
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if((DISABLE_Z) && (z_active == 0)) disable_z();
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if((DISABLE_E) && (e_active == 0)) {
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if((DISABLE_E) && (e_active == 0))
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{
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disable_e0();
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disable_e1();
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disable_e2();
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}
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#if FAN_PIN > -1
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if((FanSpeed == 0) && (fan_speed ==0)) {
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if((FanSpeed == 0) && (fan_speed ==0))
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{
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analogWrite(FAN_PIN, 0);
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}
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if (FanSpeed != 0 && tail_fan_speed !=0) {
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if (FanSpeed != 0 && tail_fan_speed !=0)
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{
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analogWrite(FAN_PIN,tail_fan_speed);
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}
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#endif
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@ -498,7 +505,8 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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// If the buffer is full: good! That means we are well ahead of the robot.
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// Rest here until there is room in the buffer.
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while(block_buffer_tail == next_buffer_head) {
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while(block_buffer_tail == next_buffer_head)
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{
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manage_heater();
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manage_inactivity();
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LCD_STATUS;
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@ -513,23 +521,26 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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target[Z_AXIS] = lround(z*axis_steps_per_unit[Z_AXIS]);
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target[E_AXIS] = lround(e*axis_steps_per_unit[E_AXIS]);
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#ifdef PREVENT_DANGEROUS_EXTRUDE
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if(target[E_AXIS]!=position[E_AXIS])
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#ifdef PREVENT_DANGEROUS_EXTRUDE
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if(target[E_AXIS]!=position[E_AXIS])
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{
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if(degHotend(active_extruder)<EXTRUDE_MINTEMP && !allow_cold_extrude)
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{
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position[E_AXIS]=target[E_AXIS]; //behave as if the move really took place, but ignore E part
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SERIAL_ECHO_START;
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SERIAL_ECHOLNPGM(MSG_ERR_COLD_EXTRUDE_STOP);
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}
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#ifdef PREVENT_LENGTHY_EXTRUDE
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if(labs(target[E_AXIS]-position[E_AXIS])>axis_steps_per_unit[E_AXIS]*EXTRUDE_MAXLENGTH)
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{
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position[E_AXIS]=target[E_AXIS]; //behave as if the move really took place, but ignore E part
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SERIAL_ECHO_START;
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SERIAL_ECHOLNPGM(MSG_ERR_LONG_EXTRUDE_STOP);
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#ifdef PREVENT_LENGTHY_EXTRUDE
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if(labs(target[E_AXIS]-position[E_AXIS])>axis_steps_per_unit[E_AXIS]*EXTRUDE_MAXLENGTH)
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{
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position[E_AXIS]=target[E_AXIS]; //behave as if the move really took place, but ignore E part
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SERIAL_ECHO_START;
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SERIAL_ECHOLNPGM(MSG_ERR_LONG_EXTRUDE_STOP);
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}
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#endif
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}
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#endif
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#endif
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#endif
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// Prepare to set up new block
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block_t *block = &block_buffer[block_buffer_head];
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@ -547,24 +558,29 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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block->step_event_count = max(block->steps_x, max(block->steps_y, max(block->steps_z, block->steps_e)));
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// Bail if this is a zero-length block
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if (block->step_event_count <= dropsegments) {
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if (block->step_event_count <= dropsegments)
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{
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return;
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};
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}
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block->fan_speed = FanSpeed;
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// Compute direction bits for this block
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block->direction_bits = 0;
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if (target[X_AXIS] < position[X_AXIS]) {
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if (target[X_AXIS] < position[X_AXIS])
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{
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block->direction_bits |= (1<<X_AXIS);
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}
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if (target[Y_AXIS] < position[Y_AXIS]) {
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if (target[Y_AXIS] < position[Y_AXIS])
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{
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block->direction_bits |= (1<<Y_AXIS);
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}
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if (target[Z_AXIS] < position[Z_AXIS]) {
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if (target[Z_AXIS] < position[Z_AXIS])
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{
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block->direction_bits |= (1<<Z_AXIS);
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}
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if (target[E_AXIS] < position[E_AXIS]) {
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if (target[E_AXIS] < position[E_AXIS])
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{
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block->direction_bits |= (1<<E_AXIS);
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}
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@ -578,16 +594,19 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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#endif
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// Enable all
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if(block->steps_e != 0) {
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if(block->steps_e != 0)
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{
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enable_e0();
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enable_e1();
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enable_e2();
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}
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if (block->steps_e == 0) {
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if (block->steps_e == 0)
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{
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if(feed_rate<mintravelfeedrate) feed_rate=mintravelfeedrate;
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}
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else {
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else
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{
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if(feed_rate<minimumfeedrate) feed_rate=minimumfeedrate;
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}
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@ -596,10 +615,12 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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delta_mm[Y_AXIS] = (target[Y_AXIS]-position[Y_AXIS])/axis_steps_per_unit[Y_AXIS];
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delta_mm[Z_AXIS] = (target[Z_AXIS]-position[Z_AXIS])/axis_steps_per_unit[Z_AXIS];
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delta_mm[E_AXIS] = ((target[E_AXIS]-position[E_AXIS])/axis_steps_per_unit[E_AXIS])*extrudemultiply/100.0;
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if ( block->steps_x <=dropsegments && block->steps_y <=dropsegments && block->steps_z <=dropsegments ) {
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if ( block->steps_x <=dropsegments && block->steps_y <=dropsegments && block->steps_z <=dropsegments )
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{
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block->millimeters = fabs(delta_mm[E_AXIS]);
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}
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else {
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else
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{
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block->millimeters = sqrt(square(delta_mm[X_AXIS]) + square(delta_mm[Y_AXIS]) + square(delta_mm[Z_AXIS]));
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}
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float inverse_millimeters = 1.0/block->millimeters; // Inverse millimeters to remove multiple divides
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@ -611,14 +632,17 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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// slow down when de buffer starts to empty, rather than wait at the corner for a buffer refill
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#ifdef OLD_SLOWDOWN
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if(moves_queued < (BLOCK_BUFFER_SIZE * 0.5) && moves_queued > 1) feed_rate = feed_rate*moves_queued / (BLOCK_BUFFER_SIZE * 0.5);
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if(moves_queued < (BLOCK_BUFFER_SIZE * 0.5) && moves_queued > 1)
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feed_rate = feed_rate*moves_queued / (BLOCK_BUFFER_SIZE * 0.5);
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#endif
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#ifdef SLOWDOWN
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// segment time im micro seconds
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unsigned long segment_time = lround(1000000.0/inverse_second);
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if ((moves_queued > 1) && (moves_queued < (BLOCK_BUFFER_SIZE * 0.5))) {
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if (segment_time < minsegmenttime) { // buffer is draining, add extra time. The amount of time added increases if the buffer is still emptied more.
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if ((moves_queued > 1) && (moves_queued < (BLOCK_BUFFER_SIZE * 0.5)))
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{
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if (segment_time < minsegmenttime)
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{ // buffer is draining, add extra time. The amount of time added increases if the buffer is still emptied more.
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inverse_second=1000000.0/(segment_time+lround(2*(minsegmenttime-segment_time)/moves_queued));
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}
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}
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@ -632,7 +656,8 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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// Calculate and limit speed in mm/sec for each axis
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float current_speed[4];
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float speed_factor = 1.0; //factor <=1 do decrease speed
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for(int i=0; i < 4; i++) {
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for(int i=0; i < 4; i++)
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{
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current_speed[i] = delta_mm[i] * inverse_second;
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if(fabs(current_speed[i]) > max_feedrate[i])
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speed_factor = min(speed_factor, max_feedrate[i] / fabs(current_speed[i]));
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@ -646,18 +671,22 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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unsigned char direction_change = block->direction_bits ^ old_direction_bits;
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old_direction_bits = block->direction_bits;
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if((direction_change & (1<<X_AXIS)) == 0) {
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if((direction_change & (1<<X_AXIS)) == 0)
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{
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x_segment_time[0] += segment_time;
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}
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else {
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else
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{
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x_segment_time[2] = x_segment_time[1];
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x_segment_time[1] = x_segment_time[0];
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x_segment_time[0] = segment_time;
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}
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if((direction_change & (1<<Y_AXIS)) == 0) {
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if((direction_change & (1<<Y_AXIS)) == 0)
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{
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y_segment_time[0] += segment_time;
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}
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else {
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else
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{
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y_segment_time[2] = y_segment_time[1];
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y_segment_time[1] = y_segment_time[0];
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y_segment_time[0] = segment_time;
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@ -665,12 +694,15 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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long max_x_segment_time = max(x_segment_time[0], max(x_segment_time[1], x_segment_time[2]));
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long max_y_segment_time = max(y_segment_time[0], max(y_segment_time[1], y_segment_time[2]));
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long min_xy_segment_time =min(max_x_segment_time, max_y_segment_time);
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if(min_xy_segment_time < MAX_FREQ_TIME) speed_factor = min(speed_factor, speed_factor * (float)min_xy_segment_time / (float)MAX_FREQ_TIME);
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if(min_xy_segment_time < MAX_FREQ_TIME)
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speed_factor = min(speed_factor, speed_factor * (float)min_xy_segment_time / (float)MAX_FREQ_TIME);
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#endif
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// Correct the speed
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if( speed_factor < 1.0) {
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for(unsigned char i=0; i < 4; i++) {
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if( speed_factor < 1.0)
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{
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for(unsigned char i=0; i < 4; i++)
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{
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current_speed[i] *= speed_factor;
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}
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block->nominal_speed *= speed_factor;
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@ -679,10 +711,12 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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// Compute and limit the acceleration rate for the trapezoid generator.
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float steps_per_mm = block->step_event_count/block->millimeters;
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if(block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0) {
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if(block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0)
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{
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block->acceleration_st = ceil(retract_acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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}
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else {
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else
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{
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block->acceleration_st = ceil(acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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// Limit acceleration per axis
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if(((float)block->acceleration_st * (float)block->steps_x / (float)block->step_event_count) > axis_steps_per_sqr_second[X_AXIS])
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