Merge pull request #4650 from thinkyhead/rc_percent_is_percent
extruder_multiplier => flow_percentage
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733453569b
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@ -265,7 +265,7 @@ extern int feedrate_percentage;
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extern bool axis_relative_modes[];
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extern bool axis_relative_modes[];
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extern bool volumetric_enabled;
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extern bool volumetric_enabled;
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extern int extruder_multiplier[EXTRUDERS]; // sets extrude multiply factor (in percent) for each extruder individually
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extern int flow_percentage[EXTRUDERS]; // Extrusion factor for each extruder
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extern float filament_size[EXTRUDERS]; // cross-sectional area of filament (in millimeters), typically around 1.75 or 2.85, 0 disables the volumetric calculations for the extruder.
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extern float filament_size[EXTRUDERS]; // cross-sectional area of filament (in millimeters), typically around 1.75 or 2.85, 0 disables the volumetric calculations for the extruder.
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extern float volumetric_multiplier[EXTRUDERS]; // reciprocal of cross-sectional area of filament (in square millimeters), stored this way to reduce computational burden in planner
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extern float volumetric_multiplier[EXTRUDERS]; // reciprocal of cross-sectional area of filament (in square millimeters), stored this way to reduce computational burden in planner
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extern bool axis_known_position[3]; // axis[n].is_known
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extern bool axis_known_position[3]; // axis[n].is_known
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@ -320,7 +320,7 @@ static float feedrate_mm_s = MMM_TO_MMS(1500.0), saved_feedrate_mm_s;
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int feedrate_percentage = 100, saved_feedrate_percentage;
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int feedrate_percentage = 100, saved_feedrate_percentage;
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bool axis_relative_modes[] = AXIS_RELATIVE_MODES;
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bool axis_relative_modes[] = AXIS_RELATIVE_MODES;
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int extruder_multiplier[EXTRUDERS] = ARRAY_BY_EXTRUDERS1(100);
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int flow_percentage[EXTRUDERS] = ARRAY_BY_EXTRUDERS1(100);
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bool volumetric_enabled = false;
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bool volumetric_enabled = false;
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float filament_size[EXTRUDERS] = ARRAY_BY_EXTRUDERS1(DEFAULT_NOMINAL_FILAMENT_DIA);
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float filament_size[EXTRUDERS] = ARRAY_BY_EXTRUDERS1(DEFAULT_NOMINAL_FILAMENT_DIA);
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float volumetric_multiplier[EXTRUDERS] = ARRAY_BY_EXTRUDERS1(1.0);
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float volumetric_multiplier[EXTRUDERS] = ARRAY_BY_EXTRUDERS1(1.0);
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@ -5594,7 +5594,7 @@ inline void gcode_M220() {
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inline void gcode_M221() {
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inline void gcode_M221() {
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if (get_target_extruder_from_command(221)) return;
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if (get_target_extruder_from_command(221)) return;
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if (code_seen('S'))
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if (code_seen('S'))
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extruder_multiplier[target_extruder] = code_value_int();
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flow_percentage[target_extruder] = code_value_int();
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}
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}
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/**
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/**
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@ -6059,7 +6059,7 @@ inline void gcode_M400() { stepper.synchronize(); }
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//SERIAL_PROTOCOLPGM("Filament dia (measured mm):");
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//SERIAL_PROTOCOLPGM("Filament dia (measured mm):");
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//SERIAL_PROTOCOL(filament_width_meas);
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//SERIAL_PROTOCOL(filament_width_meas);
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//SERIAL_PROTOCOLPGM("Extrusion ratio(%):");
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//SERIAL_PROTOCOLPGM("Extrusion ratio(%):");
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//SERIAL_PROTOCOL(extruder_multiplier[active_extruder]);
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//SERIAL_PROTOCOL(flow_percentage[active_extruder]);
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}
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}
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/**
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/**
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@ -8431,15 +8431,18 @@ void prepare_move_to_destination() {
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static millis_t next_status_led_update_ms = 0;
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static millis_t next_status_led_update_ms = 0;
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void handle_status_leds(void) {
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void handle_status_leds(void) {
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float max_temp = 0.0;
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if (ELAPSED(millis(), next_status_led_update_ms)) {
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if (ELAPSED(millis(), next_status_led_update_ms)) {
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next_status_led_update_ms += 500; // Update every 0.5s
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next_status_led_update_ms += 500; // Update every 0.5s
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float max_temp =
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#if HAS_TEMP_BED
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MAX3(max_temp, thermalManager.degTargetBed(), thermalManager.degBed())
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#else
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0.0
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#endif
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;
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HOTEND_LOOP() {
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HOTEND_LOOP() {
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max_temp = max(max(max_temp, thermalManager.degHotend(e)), thermalManager.degTargetHotend(e));
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max_temp = MAX3(max_temp, thermalManager.degHotend(e), thermalManager.degTargetHotend(e));
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}
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}
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#if HAS_TEMP_BED
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max_temp = max(max(max_temp, thermalManager.degTargetBed()), thermalManager.degBed());
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#endif
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bool new_led = (max_temp > 55.0) ? true : (max_temp < 54.0) ? false : red_led;
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bool new_led = (max_temp > 55.0) ? true : (max_temp < 54.0) ? false : red_led;
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if (new_led != red_led) {
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if (new_led != red_led) {
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red_led = new_led;
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red_led = new_led;
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@ -118,4 +118,7 @@
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#define CEILING(x,y) (((x) + (y) - 1) / (y))
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#define CEILING(x,y) (((x) + (y) - 1) / (y))
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#define MAX3(a, b, c) max(max(a, b), c)
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#define MAX4(a, b, c, d) max(max(max(a, b), c), d)
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#endif //__MACROS_H
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#endif //__MACROS_H
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@ -622,11 +622,8 @@ void Planner::check_axes_activity() {
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block->steps[Z_AXIS] = labs(dz);
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block->steps[Z_AXIS] = labs(dz);
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#endif
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#endif
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block->steps[E_AXIS] = labs(de);
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block->steps[E_AXIS] = labs(de) * volumetric_multiplier[extruder] * flow_percentage[extruder] * 0.01 + 0.5;
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block->steps[E_AXIS] *= volumetric_multiplier[extruder];
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block->step_event_count = MAX4(block->steps[X_AXIS], block->steps[Y_AXIS], block->steps[Z_AXIS], block->steps[E_AXIS]);
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block->steps[E_AXIS] *= extruder_multiplier[extruder];
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block->steps[E_AXIS] /= 100;
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block->step_event_count = max(block->steps[X_AXIS], max(block->steps[Y_AXIS], max(block->steps[Z_AXIS], block->steps[E_AXIS])));
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// Bail if this is a zero-length block
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// Bail if this is a zero-length block
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if (block->step_event_count <= dropsegments) return;
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if (block->step_event_count <= dropsegments) return;
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@ -809,7 +806,7 @@ void Planner::check_axes_activity() {
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delta_mm[Y_AXIS] = dy * steps_to_mm[Y_AXIS];
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delta_mm[Y_AXIS] = dy * steps_to_mm[Y_AXIS];
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delta_mm[Z_AXIS] = dz * steps_to_mm[Z_AXIS];
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delta_mm[Z_AXIS] = dz * steps_to_mm[Z_AXIS];
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#endif
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#endif
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delta_mm[E_AXIS] = 0.01 * (de * steps_to_mm[E_AXIS]) * volumetric_multiplier[extruder] * extruder_multiplier[extruder];
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delta_mm[E_AXIS] = 0.01 * (de * steps_to_mm[E_AXIS]) * volumetric_multiplier[extruder] * flow_percentage[extruder];
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if (block->steps[X_AXIS] <= dropsegments && block->steps[Y_AXIS] <= dropsegments && block->steps[Z_AXIS] <= dropsegments) {
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if (block->steps[X_AXIS] <= dropsegments && block->steps[Y_AXIS] <= dropsegments && block->steps[Z_AXIS] <= dropsegments) {
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block->millimeters = fabs(delta_mm[E_AXIS]);
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block->millimeters = fabs(delta_mm[E_AXIS]);
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@ -930,8 +927,8 @@ void Planner::check_axes_activity() {
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}
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}
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ys0 = axis_segment_time[Y_AXIS][0] = ys0 + segment_time;
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ys0 = axis_segment_time[Y_AXIS][0] = ys0 + segment_time;
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long max_x_segment_time = max(xs0, max(xs1, xs2)),
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long max_x_segment_time = MAX3(xs0, xs1, xs2),
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max_y_segment_time = max(ys0, max(ys1, ys2)),
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max_y_segment_time = MAX3(ys0, ys1, ys2),
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min_xy_segment_time = min(max_x_segment_time, max_y_segment_time);
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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) {
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if (min_xy_segment_time < MAX_FREQ_TIME) {
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float low_sf = speed_factor * min_xy_segment_time / (MAX_FREQ_TIME);
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float low_sf = speed_factor * min_xy_segment_time / (MAX_FREQ_TIME);
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@ -799,15 +799,15 @@ void kill_screen(const char* lcd_msg) {
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// Flow 4:
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// Flow 4:
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//
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//
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#if EXTRUDERS == 1
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#if EXTRUDERS == 1
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MENU_ITEM_EDIT(int3, MSG_FLOW, &extruder_multiplier[0], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW, &flow_percentage[0], 10, 999);
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#else // EXTRUDERS > 1
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#else // EXTRUDERS > 1
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MENU_ITEM_EDIT(int3, MSG_FLOW, &extruder_multiplier[active_extruder], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW, &flow_percentage[active_extruder], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N1, &extruder_multiplier[0], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N1, &flow_percentage[0], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N2, &extruder_multiplier[1], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N2, &flow_percentage[1], 10, 999);
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#if EXTRUDERS > 2
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#if EXTRUDERS > 2
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N3, &extruder_multiplier[2], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N3, &flow_percentage[2], 10, 999);
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#if EXTRUDERS > 3
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#if EXTRUDERS > 3
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N4, &extruder_multiplier[3], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_N4, &flow_percentage[3], 10, 999);
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#endif //EXTRUDERS > 3
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#endif //EXTRUDERS > 3
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#endif //EXTRUDERS > 2
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#endif //EXTRUDERS > 2
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#endif //EXTRUDERS > 1
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#endif //EXTRUDERS > 1
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